Forceps manipulator and forceps system comprising forceps manipulator

The invention claimed is: 1. A forceps system comprising: a forceps manipulator that is configured to include: a rotating joint unit configured to rotate a gripping unit having a forceps; a plurality of flexible joints, each having three degrees of freedom, that are respectively provided with throughholes along the axial direction and connected to the rotating joint unit; wires and tubes that are connected to the plurality of joints; a plurality of potentiometers configured to detect amounts of movement of the wires and tubes; a plurality of pressure sensors configured to detect pressures for driving air cylinders which are connected to the plurality of joints via the wires and tubes; and a driving unit configured to drive the rotating joint unit via flexible driving-force transmitting members which are respectively inserted into the throughholes of the plurality of joints; and a control unit configured to control the driving unit of the forceps manipulator so as to control posture of the gripping unit, wherein the gripping unit, the rotating joint unit, and the driving-force transmitting members are rotated about an axis in the axial direction. 2. The forceps system according to claim 1 , wherein the control unit is configured to estimate external forces acting on the forceps manipulator. 3. The forceps system according to claim 2 , wherein the control unit is configured to use signals from the plurality of potentiometers and the plurality of pressure sensors to estimate the external forces which cause the plurality of joints to be deformed. 4. The forceps system according to claim 1 , wherein the plurality of joints are configured with respective machined springs. 5. A forceps manipulator comprising: a rotating joint unit configured to rotate a gripping unit having a forceps; a plurality of flexible joints, each having three degrees of freedom, that are respectively provided with throughholes along the axial direction and connected to the rotating joint unit; wires and tubes that are connected to the plurality of joints; a plurality of potentiometers configured to detect amounts of movement of the wires and tubes; a plurality of pressure sensors configured to detect pressures for driving air cylinders which are connected to the plurality of joints via the wires and tubes; and a driving unit configured to drive the rotating joint unit via flexible driving-force transmitting members which are respectively inserted into the throughholes of the plurality of joints, wherein the gripping unit, the rotating joint unit, and the driving-force transmitting members are rotated about an axis in the axial direction.