Hydraulic tool

What is claimed is: 1. A hydraulic tool for moving a first structural element in an axial direction in relation to a second structural element, wherein the first structural element comprises an annular shoulder which faces an opposite annular shoulder on the second structural element, the hydraulic tool comprising: a frame configured to be inserted into a gap between the annular shoulder on the first structural element and the annular shoulder on the second structural element, the frame comprising an upper side and an opposite lower side; and a plurality of hydraulic power members fixed to and distributed along the frame, the power members configured to exert an axial pushing force against one of the annular shoulders to thereby move the structural elements apart, wherein: the frame is ring-shaped and further comprises a first arc-shaped section and a second arc-shaped section, each one of the arc-shaped sections comprising a hinged first end and an opposite second end; and the arc-shaped sections are pivotable in relation to each other between an open position, in which the second end of the first arc-shaped section and the second end of the second arc-shaped section are spaced apart, and a closed position, in which the second end of the first arc-shaped section is in contact with the second end of the second arc-shaped section. 2. The hydraulic tool according to claim 1 , wherein the first end of the first arc-shaped section is hinged to the first end of the second arc-shaped section. 3. The hydraulic tool according to claim 2 , wherein each one of the arc-shaped sections comprises at least two hydraulic power members. 4. The hydraulic tool according to claim 3 , wherein each hydraulic power member is located in a recess in the frame. 5. The hydraulic tool according to claim 4 , wherein each hydraulic power member is connected to a hydraulic circuit arranged in the frame. 6. The hydraulic tool according to claim 5 , wherein the hydraulic tool further comprises a locking member configured to lock the second end of the first arc-shaped section to the second end of the second arc-shaped section when the arc-shaped sections are in the closed position. 7. The hydraulic tool according to claim 2 , wherein each hydraulic power member is located in a recess in the frame. 8. The hydraulic tool according to claim 7 , wherein each hydraulic power member is connected to a hydraulic circuit arranged in the frame. 9. The hydraulic tool according to claim 2 , wherein each hydraulic power member is connected to a hydraulic circuit arranged in the frame. 10. The hydraulic tool according to claim 2 , wherein the hydraulic tool further comprises a locking member configured to lock the second end of the first arc-shaped section to the second end of the second arc-shaped section when the arc-shaped sections are in the closed position. 11. The hydraulic tool according to claim 1 , wherein each one of the arc-shaped sections comprises at least two hydraulic power members. 12. The hydraulic tool according claim 1 , wherein each one of the arc-shaped sections comprises at least three hydraulic power members. 13. The hydraulic tool according to claim 1 , wherein each hydraulic power member is located in a recess in the frame. 14. The hydraulic tool according to claim 13 , wherein each hydraulic power member is located in the recess on the lower side of the frame. 15. The hydraulic tool according to claim 13 , wherein each hydraulic power member is located in the recess on the upper side of the frame. 16. The hydraulic tool according to claim 1 , wherein each hydraulic power member is connected to a hydraulic circuit arranged in the frame. 17. The hydraulic tool according to claim 1 , wherein each hydraulic power member is a hydraulic cylinder. 18. The hydraulic tool according to claim 1 , wherein the hydraulic tool further comprises a locking member configured to lock the second end of the first arc-shaped section to the second end of the second arc-shaped section when the arc-shaped sections are in the closed position. 19. The hydraulic tool according to claim 1 , wherein the arc-shaped sections are semicircular. 20. A method for releasing the frictional grip between a cam ring and a number of latching dogs moveably mounted in a connector body of a tieback connector which is fixed to a wellhead assembly by the engagement of the dogs in external grooves on the wellhead assembly, wherein the dogs are wedged to the wellhead assembly by the cam ring and the cam ring is fixed to an axially moveable actuation ring of the tieback connector, the method comprising: inserting the ring-shaped frame of a hydraulic tool into a gap between an annular shoulder on the actuation ring and an opposite annular shoulder on the connector body, wherein a first and second arc-shaped sections of the frame are held in an open position when the frame is inserted into the gap; pivoting the first and second arc-shaped sections of the frame in relation to each other from the open position to a closed position; and pressurizing hydraulic power members provided on the frame in order to push the actuation ring in the axial direction away from the annular shoulder on the connector body and thereby releasing the frictional grip between the cam ring and the dogs.