Train coupler arrangement with axial expansion module

The invention claimed is: 1. A train coupler ( 1 ) for coupling of a train car, comprising a bar ( 2 ), which at a front end is adapted to engage with coupling means and at a rear end attached to an anchor ( 3 ), the longitudinal extension of the bar ( 2 ) in a relaxed position defining an axial direction and a central axis of the train coupler ( 1 ), wherein the anchor ( 3 ) is arranged to interact with a deformation unit ( 4 ), the deformation unit ( 4 ) positioned coaxially with the anchor ( 3 ) and after the anchor ( 3 ) in the axial direction from the bar ( 2 ), the anchor ( 3 ) and the deformation unit ( 4 ) comprised in a housing ( 5 ) in-between a pair of front lugs ( 5 a ) and a pair of rear lugs ( 5 b ), at least one axial expansion module ( 7 ) is inserted in-between the front lugs ( 5 a ) and the anchor ( 3 ) or in-between the anchor ( 3 ) and the deformation unit ( 4 ) or in-between the deformation unit ( 4 ) and the rear lugs ( 5 b ), and the axial expansion module ( 7 ) is arranged to be expandable in the axial direction and expanded after having been inserted into the housing ( 5 ), the axial expansion module ( 7 ) exerting a predetermined force on the deformation unit ( 4 ) and the anchor ( 3 ) so that the axial expansion module ( 7 ), the deformation unit ( 4 ) and the anchor ( 3 ) are held between the front lugs ( 5 a ) and the rear lugs ( 5 b ), the axial expansion module ( 7 ) is a wedge assembly comprising: a first wedged piece ( 37 a ) with two wedged surfaces, a second wedged piece ( 37 b ) with one wedged surface facing one of the wedged surfaces of the first wedged piece ( 37 a ), and a third wedged piece ( 37 g ) with one wedged surface facing the other of the wedged surfaces of the first wedged piece ( 37 a ), the first wedged piece ( 37 a ) provided with a threaded hole ( 37 c ) provided on its bottom surface; a fixture ( 37 h ) provided in contact with the bottom surfaces of the second wedged piece ( 37 b ) and the third wedged piece ( 37 g ) and extending at least partly over the respective bottom surfaces, the fixture ( 37 h ) provided with a hole ( 37 e ); and a bolt ( 37 d ) extending through the hole ( 37 e ) of the fixture ( 37 h ) and engaging with the threaded hole ( 37 c ) of the first wedged piece ( 37 a ) and a head ( 37 f ) of the bolt ( 37 d ) acting on the fixture ( 37 h ). 2. The train coupler ( 1 ) according to claim 1 , comprising two wedged assemblies ( 7 ) provided on each side of the centre axis and their bolt heads facing the underside of the housing. 3. The train coupler ( 1 ) according to claim 2 , wherein the housing comprises at least one cover plate ( 61 ) being open at the position of the wedged assemblies ( 7 ) and at least one second cover plate ( 62 ) covering at least partly the bottom surfaces of the two wedged assemblies ( 7 ). 4. A The train coupler ( 1 ) for coupling of a train car, comprising a bar ( 2 ), which at a front end is adapted to engage with coupling means and at a rear end attached to an anchor ( 3 ), the longitudinal extension of the bar ( 2 ) in a relaxed position defining an axial direction and a central axis of the train coupler ( 1 ), wherein the anchor ( 3 ) is arranged to interact with a deformation unit ( 4 ), the deformation unit ( 4 ) positioned coaxially with the anchor ( 3 ) and after the anchor ( 3 ) in the axial direction from the bar ( 2 ), the anchor ( 3 ) and the deformation unit ( 4 ) comprised in a housing ( 5 ) in-between a pair of front lugs ( 5 a ) and a pair of rear lugs ( 5 b ), at least one axial expansion module ( 7 ) is inserted in-between the front lugs ( 5 a ) and the anchor ( 3 ) or in-between the anchor ( 3 ) and the deformation unit ( 4 ) or in-between the deformation unit ( 4 ) and the rear lugs ( 5 b ), the axial expansion module ( 7 ) is arranged to be expandable in the axial direction and expanded after having been inserted into the housing ( 5 ), the axial expansion module ( 7 ) exerting a predetermined force on the deformation unit ( 4 ) and the anchor ( 3 ) so that the axial expansion module ( 7 ), the deformation unit ( 4 ) and the anchor ( 3 ) are held between the front lugs ( 5 a ) and the rear lugs ( 5 b ), the axial expansion module ( 7 ) is a wedge assembly ( 47 ) comprising: a first wedged piece ( 47 a ) with two wedged surfaces, a second wedged piece ( 47 b ) with one wedged surface facing one of the wedged surfaces of the first wedged piece ( 47 a ), and a third wedged piece ( 47 g ) with one wedged surface facing the other of the wedged surfaces of the first wedged piece ( 47 a ), the first wedged piece ( 47 a ) provided with a through hole ( 47 c ) extending from its bottom surface to its top surface; a fixture ( 47 h ) provided in contact with the top surfaces of the second wedged piece ( 47 b ) and the third wedged piece ( 47 g ) and extending at least partly over the respective top surfaces, the fixture ( 47 h ) provided with a threaded hole ( 47 i ); and a bolt ( 47 d ) extending through the hole ( 47 c ) of the first wedged piece ( 47 a ) and engaging with the threaded hole ( 47 i ) of the fixture ( 47 h ) and a head ( 47 f ) of the bolt ( 37 d ) acting on the bottom surface of the first wedged piece ( 47 a ). 5. A train coupler ( 1 ) for coupling of a train car, comprising a bar ( 2 ), which at a front end is adapted to engage with coupling means and at a rear end attached to an anchor ( 3 ), the longitudinal extension of the bar ( 2 ) in a relaxed position defining an axial direction and a central axis of the train coupler ( 1 ), wherein the anchor ( 3 ) is arranged to interact with a deformation unit ( 4 ), the deformation unit ( 4 ) positioned coaxially with the anchor ( 3 ) and after the anchor ( 3 ) in the axial direction from the bar ( 2 ), the anchor ( 3 ) and the deformation unit ( 4 ) comprised in a housing ( 5 ) in-between a pair of front lugs ( 5 a ) and a pair of rear lugs ( 5 b ), at least one axial expansion module ( 7 ) is inserted in-between the front lugs ( 5 a ) and the anchor ( 3 ) or in-between the anchor ( 3 ) and the deformation unit ( 4 ) or in-between the deformation unit ( 4 ) and the rear lugs ( 5 b ), the axial expansion module ( 7 ) is arranged to be expandable in the axial direction and expanded after having been inserted into the housing ( 5 ), the axial expansion module ( 7 ) exerting a predetermined force on the deformation unit ( 4 ) and the anchor ( 3 ) so that the axial expansion module ( 7 ), the deformation unit ( 4 ) and the anchor ( 3 ) are held between the front lugs ( 5 a ) and the rear lugs ( 5 b ), the axial expansion module ( 7 ) is a wedge assembly ( 57 ) comprising: a first wedged piece ( 57 a ) with a rear facing wedged surface and a front facing wedged surface, a second wedged piece ( 57 b ) with a rear facing wedged surfaces and a front facing wedged surface, the first wedged piece ( 57 a ) provided above the second wedged piece ( 57 b ) in a direction transverse to the centre axis, a third wedged piece ( 57 c ) with an upper and an lower rear facing wedged surfaces, and a fourth wedged piece ( 57 d ) with an upper and a lower front facing wedged surfaces, the upper and lower wedged surfaces of the third ( 57 c ) and fourth ( 57 d ) wedged pieces arranged so that wedged pieces have a larger thickness in the axial direction in the middle of the wedged pieces than at the intersection with the top and bottom surfaces, the rear facing wedged surface of the first wedged piece ( 57 a ) faces and corresponds to the upper front facing wedged surface of the fourth wedged piece ( 57 d ), the front facing wedged surface of the first wedged piece ( 57 a ) faces and corresponds to the uppe