Variable stator vane mechanism

What is claimed is: 1. A variable stator vane mechanism for adjusting a mounting angle of a stator vane of an axial flow compressor, the variable stator vane mechanism comprising: an arm coupled to the stator vane; a rotation ring coupled to one end portion of the arm and located at an outer surface of a casing of the axial flow compressor; a driving machine configured to rotate the rotation ring to cause the stator vane to pivot via the arm; and a friction pad detachably mounted on the casing by the use of a fastening member, wherein the rotation ring is in frictional contact with the friction pad, and wherein the friction pad is formed with a plurality of grooves extending parallel to each other from an anterior side of the friction pad to a center portion of the friction pad so that the friction pad can be inserted and pulled out in a direction parallel to the grooves when the fastening member is loosened. 2. The variable stator vane mechanism as claimed in claim 1 , wherein the rotation ring has a U-shaped cross section, and includes an outer ring piece and an inner ring piece which face each other in a radial direction, and connecting piece connecting the outer and inner pieces, and wherein the one end portion of the arm is inserted between the outer ring piece and the inner ring piece, and the connecting piece has a radially inner end portion in the form of a contact piece that is in contact with the friction pad. 3. The variable stator vane mechanism as claimed in claim 1 , wherein the one end portion of the arm is coupled to the rotation ring via a spherical bearing provided in the rotation ring. 4. The variable stator vane mechanism as claimed in claim 1 , wherein a shim is inserted between the friction pad and the casing. 5. The variable stator vane mechanism as claimed in claim 1 , wherein the rotation ring is formed with a tool insertion hole, through which a tool for manipulating the fastening member is to be inserted, at a position that is opposed to the fastening member and that is on a radially outer side relative to the fastening member. 6. The variable stator vane mechanism as claimed in claim 5 , wherein the friction pad is positioned so as to be detachable in a direction orthogonal to the radial direction in a state where the fastening member is loosened. 7. The variable stator vane mechanism as claimed in claim 1 , wherein the driving machine is a single electric actuator and is installed on an upper portion of the casing.