Docking device for a rotary milking parlour

The invention claimed is: 1. A docking device of a milking parlour in the form of a rotatable, rotary platform ( 2 ) with a plurality of milking stalls ( 3 ) and a common circular milk line ( 20 ) that receives milk from animals milked in the milking stalls ( 3 ) the docking device comprising: a first milk line ( 30 - 34 ), connected to the rotatable platform ( 2 ) configured to receive a milk sample from an animal ( 1 ) milked in a milking stall ( 3 ), the milk sample received by the first milk line being separate from the milk received by the common circular milk line ( 20 ); a second milk line ( 35 , 37 ) separate from the rotatable platform ( 2 ) and configured to feed the milk sample to a milk sampling apparatus that is also separate from the rotatable platform ( 2 ); a first docking unit ( 34 ) comprising an outlet opening ( 34 a ) of the first milk line ( 30 - 34 ); and a second docking unit ( 35 ) comprising an inlet opening ( 35 a ) of the second milk line ( 35 , 37 ), one of the first and second docking units ( 34 , 35 ) is moveable towards the other of the first and second docking units ( 34 , 35 ) to reach a docking position when the milking stall ( 3 ) on the rotatable platform ( 2 ) operationally moves along with the rotatable platform to a predetermined rotary position (pn), wherein the one of the first and second docking units ( 34 , 35 ) comprises an adjusting mechanism ( 38 ) that adjusts a position of the one of said first and second docking units ( 34 , 35 ) in relation to the other of said first and second docking units ( 34 , 35 ), at least one of the first and second docking units ( 34 , 35 ) being associated with a guiding surface ( 34 b ) configured to guide the other of the first and second docking units ( 34 , 35 ) during movement of the first and second docking units ( 34 , 35 ) relative to each other in order to reach the docking position in which a closed connection is accomplished between the outlet opening ( 34 a ) of the first docking unit ( 34 ) and the inlet opening ( 35 a ) of the second docking unit ( 35 ). 2. The docking device according to claim 1 , wherein the first docking unit ( 34 ) and the second docking unit ( 35 ) comprises complementary shaped contact surfaces ( 34 b , 35 b ) in the docking position forming the closed connection between the inlet opening ( 34 a ) and the outlet opening ( 35 a ). 3. The docking device according to claim 1 , wherein at least one of the first and second docking units ( 34 , 35 ) comprises a contact surface with the other docking unit in the docking position formed by a sealing member. 4. The docking device according to claim 1 , wherein said movable docking unit ( 34 , 35 ) is configured to provide a substantially vertical movement towards the other docking unit ( 34 , 35 ). 5. The docking device according to claim 1 , wherein said movable docking unit ( 34 , 35 ) is configured to provide a movement towards the other docking unit ( 34 , 35 ) by means of an extensible power member ( 39 ). 6. The docking device according to claim 5 , wherein said extensible power member ( 39 ) is separately mounted in relation to the platform ( 2 ). 7. The docking device according to claim 1 , wherein said guiding surface comprises a conically shaped surface ( 34 b ). 8. The docking device according to claim 7 , wherein said docking unit associated with the guiding surface ( 34 b ) is a funnel-shaped docking unit ( 34 ). 9. The docking device according to claim 1 , wherein the docking unit associated with the guiding surface ( 34 b ) is associated with the first milk line ( 30 - 34 ). 10. The docking device according to claim 1 , wherein the movable one of the first and second docking units is mounted atop a piston thereby to be moved towards the other of the first and second docking units ( 34 , 35 ), and wherein the adjusting mechanism ( 38 ) comprises a bracket ( 42 ) having a through hole ( 42 b ), through which a tubular portion of the one of the first and second docking units ( 34 , 35 ) extends, the tubular portion configured to pivot about a pivot axis formed by through hole ( 42 b ). 11. The docking device according to claim 10 , wherein the docking device comprises a spring member ( 44 ) coiled around the tubular portion, a first end of the spring member ( 44 ) resting against a contact surface ( 42 a ) of the bracket ( 42 ) at a location of the through hole ( 42 b ). 12. The docking device according to claim 11 , wherein opposing end of the coil spring ( 44 ) is arranged between a contact surface ( 35 c 2 ) of the docking unit ( 35 ) and the contact surface ( 42 a ). 13. The docking device according to claim 12 , wherein the adjusting mechanism ( 38 ) comprises a second bracket ( 41 ) with a second through hole ( 41 b ) through which the docking unit ( 35 ) extends, and wherein the second through hole ( 41 b ) in the first second bracket ( 41 ) has a larger diameter than a diameter of the tubular portion of the unit ( 35 ). 14. The docking device according to claim 13 , wherein the docking unit ( 35 ) is provided with an annular flange ( 35 c ) having a larger diameter than the second through hole ( 41 b ) in the first bracket ( 41 ), a second end of the spring resting against a first surface of the annular flange ( 35 c ), and an opposing second surface of the annular flange ( 35 c ) resting against a perimeter of the second through hole ( 41 b ). 15. The docking device according to claim 14 , wherein the annular flange ( 35 c ) has a curved surface ( 35 c 1 ) to be in contact with the second bracket ( 41 ) in the vicinity of the second through hole ( 41 b ). 16. The docking device according to claim 12 , wherein a free end portion ( 35 b ) of the second docking unit ( 35 ) is formed with a convex surface in the vicinity of the inlet opening ( 35 a ). 17. The docking device according to claim 1 , wherein the outlet opening ( 34 a ) of said first docking unit ( 34 ) is located at a free end portion ( 34 b ) of the first docking unit ( 34 ).