Plunger sub-assembly for a prefilled medicament injector, a prefilled medicament injector and method for assembling a prefilled medical injector

The invention claimed is: 1. A plunger sub-assembly for a pre-filled medicament injector for expelling a dose of a medicament, comprising: a container holding a medicament, the container comprising a cylindrical container body extending along a central axis between a medicament expelling distal end and a proximal end, wherein an axially slideable piston is arranged within the container body to seal the container proximally, and wherein the proximal end of the container body comprises a proximally facing rim surface, a plunger arranged along the axis and configured for driving the piston distally relative to the proximally facing rim surface, the plunger being distally movable from a start position where the plunger is not cooperating with the proximally facing rim surface until an end position relative to the container where the plunger cooperates with the proximally facing rim surface thereby preventing the plunger from moving further distally, the piston assuming an end of dose position relative to the proximally facing rim surface when the plunger assumes the end position, and an adjustable blocking structure associated with the plunger and the container to provide an axial blocking structure for the plunger in the end position, wherein the adjustable blocking structure comprises a tolerance compensating element configured to cooperate with the plunger and to cooperate with the proximally facing rim surface, wherein the tolerance compensating element is rotatable relative to the plunger to adjust the piston end of dose position relative to the proximally facing rim surface, wherein the tolerance compensating element is so configured that, when the plunger assumes the end position, the plunger engages directly with the piston, whereas the tolerance compensating element directly engages both the plunger and the proximally facing rim surface wherein one of the plunger and the tolerance compensating element comprises a contour system comprising a plurality of circumferentially disposed stop surfaces that are arranged axially offset relative to each other, and wherein the other of the plunger and the tolerance compensating element comprises a counter stop surface arranged to axially engage a selective one of the plurality of circumferentially stop surfaces, and wherein, when in an initial assembly configuration, the tolerance compensating element and the plunger are positioned relative to each other to rotationally align the counter stop surface with a selective one of the plurality of circumferentially disposed stop surfaces to thereby adjustably control the end position of the plunger relative to the container, enabling the counter stop surface to axially abut the selected one of the plurality of circumferentially disposed stop surfaces. 2. The plunger sub-assembly as defined in claim 1 , wherein, when the plunger assumes the end position, a distally facing geometry of the plunger engages directly with the piston, whereas the tolerance compensating element directly engages both the plunger and the proximally facing rim surface, and wherein the tolerance compensating element is formed as a collar arranged circumferentially relative to the plunger and having a distal annular surface, the distal annular surface configured for engaging the proximally facing rim surface. 3. The plunger sub-assembly as defined in claim 1 , wherein the plurality of circumferentially disposed stop surfaces of the contour system define a plurality of steps that are circumferentially arranged and axially offset relative to one another. 4. The plunger sub-assembly as defined in claim 1 , wherein, in a final assembly configuration, the tolerance compensating element and the plunger are positioned rotationally locked relative to each other with rotational alignment of the counter stop surface with the selected one of the plurality of circumferentially disposed stop surfaces, causing said counter stop surface to axially abut said selected one of the plurality of circumferentially disposed stop surfaces to thereby control the end position of the plunger relative to the container body. 5. The plunger sub-assembly as defined in claim 1 , wherein the plunger and the tolerance compensating element engage with each other by structure of a tongue and groove system, the tongue and groove system defining at least one tongue and a plurality of axially extending grooves disposed in a coaxial configuration, wherein the tongue positioned in a selective one of said plurality of axially extending grooves to rotationally align said counter stop surface with the selected one of the plurality of circumferentially disposed stop surfaces enabling an axially sliding movement of the plunger and the tolerance compensating element relative to each other while preventing relative rotational movement there between. 6. The plunger sub-assembly as defined in claim 1 , wherein the injector defines a base component that is mounted axially fixed relative to the container body and that partially or fully encircles the plunger, wherein the plunger and the base component are mounted non-rotatably relative to each other, wherein the base component and the tolerance compensating element engage with each other by structure of a tongue and groove system, the tongue and groove system defining at least one tongue and a plurality of axially extending grooves disposed in a coaxial configuration, and wherein the tongue positioned in a selective one of said plurality of axially extending grooves to rotationally align said counter stop surface with the selected one of the plurality of circumferentially disposed stop surfaces to prevent relative rotation between the base component and the tolerance compensating element. 7. The plunger sub-assembly as defined in claim 1 , wherein said counter stop surface and additional corresponding counter stop surfaces are provided as a plurality of circumferentially disposed counter stop surfaces distributed regularly around the central axis, wherein the respective ones of the plurality of circumferentially disposed counter stop surfaces are configured for simultaneously axially engaging a respective one of the plurality of circumferentially disposed stop surfaces. 8. The plunger sub-assembly as defined in claim 5 , wherein the groove and tongue comprise engaging surfaces being so configured that the tolerance compensating element and the plunger is selectively rotationally positionable relative to each other in incremental angular steps having a step size between 5 and 180 Deg. 9. The plunger sub-assembly as defined in claim 1 , wherein the plunger and the tolerance compensating element, in a final assembly configuration, are prevented from rotating relative to each other by structure of a rotational lock. 10. A pre-filled medicament injector for expelling a dose of a medicament, comprising: a housing comprising first and second housing components, the plunger sub-assembly as defined in claim 1 , and an expelling mechanism comprising an actuator configured for, upon activation, exerting a distally directed force on the plunger for expelling the dose of the medicament, wherein the plunger sub-assembly and the expelling mechanism are accommodated non-removably relative to the first and second housing components. 11. The pre-filled medicament injector as defined in claim 10 , wherein the tolerance compensating element and the plunger are positioned relative to each other providing a permanent rotational alignment between the counter stop surface and a selected one of the plurality of circumferentially disposed stop surfaces, enabling said counter stop surface to axially abut said selected one of the pluralit