Mobile conducting unit for a breaker, including a spring for accelerating the separation of arc contacts

What is claimed is: 1. A switchgear comprising: an electrically conductive movable unit ( 6 ) comprising an electrically conductive main body ( 9 ) including both a main contact ( 4 b ) and an arcing contact ( 5 b ); wherein said electrically conductive movable unit ( 6 ) also comprises a secondary body ( 14 ) mounted to move in sliding relatively to said main body ( 9 ) along a movement direction ( 11 ) of said electrically conductive unit ( 6 ), said secondary body ( 14 ) being designed to be connected to a connection point ( 22 ) of a drive device of said electrically conductive unit ( 6 ), said electrically conductive unit further comprising resilient return means ( 16 ) interposed between said main body ( 9 ) and said secondary body ( 14 ), and said switchgear being designed so that during an opening operation said resilient return means ( 16 ) can firstly store energy as a result of the secondary body ( 14 ) moving relative to the main body ( 9 ), and can then release the stored energy in order to cause said main body ( 9 ) to accelerate, wherein the main contact ( 4 b ) and the arcing contact ( 5 b ) are fixed relative to one another in a sliding direction of the main body ( 9 ) during the opening operation when the secondary body ( 14 ) slides relative to the main body ( 9 ). 2. The switchgear according to claim 1 , further including abutment means making it possible, during an opening operation, to block the movement in translation of said main body ( 9 ) relative to a stationary body ( 8 ) of the switchgear, and in that said secondary body ( 14 ) is fitted with unlocking means designed to release said abutment means after said secondary body ( 14 ) has been moved through a predetermined distance relative to the main body ( 9 ). 3. The switchgear according to claim 1 , wherein said resilient return means ( 16 ) include at least one compression or traction spring. 4. The switchgear according to claim 2 , wherein said abutment means are arranged on said stationary body ( 8 ) of the switchgear and on the main body ( 9 ) of the electrically conductive movable unit ( 6 ). 5. The switchgear according to claim 1 , further comprising said drive device ( 30 ) for driving said electrically conductive movable unit ( 6 ), wherein the secondary body ( 14 ) is connected to the connection point ( 22 ) of said drive device ( 30 ). 6. The switchgear according to claim 5 , wherein said drive device ( 30 ) comprises a rotary input shaft ( 32 ) and an output member ( 34 ) including a connection point ( 22 ) for connection to said electrically conductive unit ( 6 ), said connection point being movable in translation along a movement axis ( 11 ) of said electrically conductive unit, and in that the device ( 30 ) comprises a mechanical system ( 40 ) for transmitting movement between said connection point ( 22 ) and said rotary input shaft ( 32 ), said mechanical system being designed in such a manner, during an opening operation and/or during a closing operation of the switchgear, it obtains a variable speed for the connection point ( 22 ) during rotation at constant angular velocity of said rotary input shaft ( 32 ). 7. The switchgear according to claim 6 , wherein said mechanical system ( 40 ) comprises at least two elements ( 44 , 46 ), each provided with a groove ( 50 , 56 ) and a peg-forming member ( 52 , 58 ) housed to move in the groove of the other one of the two elements. 8. The switchgear according to claim 7 , wherein the mechanical system ( 40 ) is designed so that either of the two elements ( 44 , 46 ) is driven by the other element by pressing one of the peg-forming members ( 52 , 58 ) into the bottom of its associated groove ( 50 , 56 ), and by simultaneously moving the other peg-forming member in its associated groove. 9. A drive device according to claim 8 , wherein the mechanical system ( 40 ) is designed so that during an opening operation and/or during a closing operation of the switchgear, each peg-forming member ( 52 , 58 ) passes at least once from the configuration in which it presses into the bottom of its associated groove ( 50 , 56 ) to the configuration in which it moves in its associated groove, or vice versa. 10. The switchgear according to claim 1 , further including an electric motor ( 35 ) driving the rotary input shaft ( 32 ) of the drive device.