Subsea clamp connector and subsea clamp connector arrangement comprising such a clamp connector

What is claimed is: 1. A subsea clamp connector comprising: a base part; clamping elements comprising a first clamping element and a second clamping element articulately connected to the base part at a first end; a locking unit comprising an operating shaft with a first and second retaining member; a holding member provided on each clamping element comprising a shoulder and a slot configured to receive the operating shaft and the retaining members such that one retaining member will abut each of the shoulders; an actuator configured to rotate the first and the second clamping elements; and a torque bucket configured to connect to a torque tool, the torque bucket connected to one end of the operating shaft and to a holder releasably engaged with one of the clamping elements to prevent rotation of the torque bucket when the locking unit is connected to the clamping elements. 2. The subsea clamp connector according to claim 1 wherein the first and second retaining members of the locking unit are provided with internal threads being in engagement with a first and second external thread on the operating shaft, the first and second external threads being threaded in opposite directions allowing the first and second retaining members to be moved towards or away from each other on the operating shaft by rotation of the operating shaft. 3. The subsea clamp connector according to claim 1 , wherein the holder is formed as an arm where an upper end is fixed to the torque bucket and a lower end comprises projections configured for engagement with opposite lateral surfaces on one of the clamping elements. 4. The subsea clamp connector according to claim 1 , wherein the first retaining member of the locking device is fixed to the operating shaft at the first end thereof and the second retaining member is slidably mounted to the operating shaft, the second retaining member having an axially extending opening in which a locking nut is arranged, the locking nut being provided with an internal thread for engagement with an external thread on the operating shaft and being movable along the operating shaft between a first and a second wall of the second retaining member. 5. The subsea clamp connector according to claim 4 , wherein a head with a shoulder is provided on the second end of the operating shaft, the shoulder facing the second retaining member and being configured for engagement with an actuating tool to be used for pulling or pushing the second end of the operating shaft away from the second retaining member and thereby bringing the operating shaft into a pre-tensioned state. 6. The subsea clamp connector according to claim 5 , wherein the actuating tool is provided with a stroking device for moving the second end of the operating shaft away from the second retaining member when the locking unit is mounted to the first and second clamping elements. 7. The subsea clamp connector according to claim 6 , wherein the actuating tool further comprises a rotatable actuating member and a drive motor for rotating the actuating member, the actuating member being configured to act on the locking nut to rotate the locking nut and thereby move the locking nut by screwing along the operating shaft into engagement with a shoulder on the second retaining member to lock the operating shaft to the first and second holding members in its pre-tensioned state and thereby lock the first and second clamping elements to the ends of a first and a second tubular member. 8. The subsea clamp connector according to claim 1 , wherein the torque bucket is connectable to the torque tool via a Remotely Operated Vehicle.