Connecting plug, cooling circuit equipped with such a connecting plug and method for connecting such a cooling circuit and a cold plate

1 . Connection plug, this connection plug including: a connecting plate equipped with at least a passage channel centered on a central axis, at least one fluid coupling element able to be fluidly coupled with an external fluid coupling element of a cold plate, the fluid coupling element being movable, in a housing of the connecting plate, with respect to the passage channel of the connecting plate for misalignment compensation of the fluid coupling element while being in fluid communication with the passage channel, wherein: the connection plug includes a support member able to be fixed with respect to an internal channel for a fluid communication between the internal channel and the passage channel, the connecting plate is movable with respect to the support member along a principal axis transverse to the central axis of the passage channel, the connection plug also includes a spring designed to elastically push the connecting plate with respect to the support member along the principal transverse axis towards a position in abutment against an internal surface of the support member. 2 . A connection plug according to claim 1 , wherein the fluid coupling element includes a base, able to move in a plane perpendicular to the central axis relative to the connecting plate, and a tip, designed to cooperate with an external coupling element of the cold plate. 3 . A connection plug according to claim 2 , wherein the base of the fluid coupling element is housed in the housing of the connecting plate and in that the housing of the connecting plate and the base of the fluid coupling element are cylindrical. 4 . A connection plug according to claim 2 , wherein the support member defines a housing designed to house the connecting plate and in that the base is sandwiched between the support member and the connecting plate. 5 . A connection plug according to claim 1 , wherein a circular seal is located in the connecting plate around the passage channel, the circular seal defines a central axis and the central axis of the circular seal is shifted with respect to the central axis of the passage channel. 6 . A connection plug according to claim 1 , wherein the support member has two lateral surfaces able to cooperate with two lateral surfaces of the connecting plate for guiding the movement of the connecting plate along the principal transverse axis. 7 . A connection plug according to claim 1 , wherein a cap is mounted on a lateral opening of the support member, the spring being in contact with the cap at a first end and in contact with the connecting plate at a second end, the first end of the spring being located outside the support member. 8 . A connection plug according to claim 1 , wherein: the connecting plate is equipped with two passage channels, the connection plug includes two fluid coupling elements, each one designed to be in fluid communication with the corresponding passage channel, each fluid coupling elements is able to move with respect to the corresponding passage channel, and the connecting plate is movable along the principal transverse axis. 9 . Cooling circuit for a cold plate including: a manifold equipped with the at least one internal channel, at least one connection plug according to claim 1 , each support member being fixed to the manifold. 10 . Cooling circuit according to claim 9 , wherein the connecting plate is sandwiched between the support member and the manifold. 11 . Cooling circuit according to claim 10 , wherein, when the connecting plate is shifted along principal axis against the spring with a maximal amplitude, the passage channel of the connecting plate entirely overlaps the corresponding internal channel of the manifold. 12 . Method for connecting a cooling circuit according to claim 9 and a cold plate provided with a cooling channel and two external coupling elements, the method comprising at least the successive steps of: a) aligning the fluid coupling elements with respect to the external coupling elements by moving the fluid coupling elements relative to the corresponding passage channel of the connecting plate, b) fluidly coupling the fluid coupling elements with the external coupling elements, c) moving the cold plate relative to the support member along the principal transverse axis. 13 . Method according to claim 12 , wherein, during step c), the cold plate moves relative to at least one of the connecting plate of the cooling circuit along the principal transverse axis. 14 . Cooling circuit for a cold plate including: a manifold equipped with the at least one internal channel, at least one connection plug according to claim 8 , each support member being fixed to the manifold. 15 . Cooling circuit according to claim 14 , wherein the connecting plate is sandwiched between the support member and the manifold. 16 . Cooling circuit according to claim 15 , wherein, when the connecting plate is shifted along principal axis against the spring with a maximal amplitude, the passage channel of the connecting plate entirely overlaps the corresponding internal channel of the manifold. 17 . Method for connecting a cooling circuit according to claim 14 and a cold plate provided with a cooling channel and two external coupling elements, the method comprising at least the successive steps of: d) aligning the fluid coupling elements with respect to the external coupling elements by moving the fluid coupling elements relative to the corresponding passage channel of the connecting plate, e) fluidly coupling the fluid coupling elements with the external coupling elements, f) moving the cold plate relative to the support member along the principal transverse axis. 18 . Method according to claim 17 , wherein, during step c), the cold plate moves relative to at least one of the connecting plate of the cooling circuit along the principal transverse axis.