Tool holder with variable tool rotation radius, machine tool with tool holder, and machining method using machine tool

What is claimed is: 1. A tool holder configured to secure a tool and mounted on a rotary shaft, in which the tool holder is constructed so that the tool is secured with a cutting edge of the tool directed to a rotation center axis of the rotary shaft, a structure of the tool holder is elastically deformed by a centrifugal force produced as the tool holder is rotated by driving the rotary shaft, and the radius of rotation of the cutting edge of the tool around the rotation center axis is variable, wherein the cutting edge of the tool secured to the tool holder on the rotary shaft as viewed along the rotation center axis, in a coordinate system in which the tool holder is viewed along the rotation center axis, is configured to be located in a first position deviated from the rotation center axis by an initial offset when the rotary shaft is stationary and located in a second position when the rotational speed of the rotary shaft is maximal, the rotation center axis is located on a segment which connects the first position and the second position, and the cutting edge of the tool moves from the first position to the second position passing through the rotation center axis when the stationary state of the rotary shaft is changed into a maximum rotational speed state, and wherein the structure of the tool holder comprises two beams elastically deformable to the same degree in opposite directions by the centrifugal force, and centrifugal force components acting on the two beams cancel each other so that a rotation balance is maintained even when the rotational speed of the tool holder is changed. 2. The tool holder according to claim 1 , wherein the two beams of the tool holder are connected individually to two balance weights in positions with rotation radii larger than that of the tool holder, and elastic deformation of the tool holder is increased by means of the centrifugal force acting on the balance weights during rotation. 3. The tool holder according to claim 1 , wherein one of the two beams of the tool holder is configured to be fitted with the tool, and the structure of the tool holder is configured to be fitted with a balance weight for adjusting the rotation balance of the entire tool holder, including a change produced by the mass of the mounted tool. 4. The tool holder according to claim 1 , wherein the structure of the tool holder comprises two beams elastically deformable in opposite directions by the centrifugal force, each of the beams being in the form of a parallel spring such that an angle of an end face of the beam is kept constant relative to the axis of rotation when the beam is elastically deformed by the centrifugal force. 5. A machine tool comprising the tool holder according to claim 1 mounted on a spindle, the axial direction of which is coincident with a gravitational direction, and said machine tool comprising an axis movable as a linear axis in at least the axial direction of the spindle, wherein an arbitrary rotationally symmetrical shape is cut by controlling the rotational speed of the spindle and the position of the linear axis. 6. A machining method using the machine tool according to claim 5 , comprising: previously measuring the tool rotation radius with respect to the rotational speed of the spindle and a displacement of the tool along the axis of rotation with respect to the rotational speed of the spindle; converting the radius of a rotationally symmetrical shape to be machined by the machine tool into the rotational speed of the spindle according to point group data for the radius and height or a shape formula; converting the height into a displacement of the linear axis corrected by the displacement along the axis; and then creating a machining program. 7. A machining method for a lens-array shape, comprising machining a number of said rotationally symmetrical shapes in arbitrary positions on a flat or curved surface of a workpiece to be machined by controlling the position and posture of the tool holder by means of the linear axis or rotary axis of the machine tool by the machining method according to claim 6 . 8. A tool holder for securing a tool and configured to be mounted on a rotary shaft, the tool including a tip as a cutting edge substantially at a rotation center axis of the rotary shaft when the rotary shat is stationary, a structure of the tool holder being elastically deformable by a centrifugal force when the rotary shaft is rotated at a non-zero speed, the tool holder comprising: a rotation table; a first elastic member having a first end and a second end, the first end of the first elastic member being coupled to a first side the rotation table; a second elastic member having a first end and a second end, the first end of the second elastic member being coupled to a second side of the rotation table; and a weight coupled to the second end of the first elastic member, wherein the tool is configured to be coupled between the weight and the second end of the second elastic member, such that a longitudinal axis of the tool is substantially coaxial with the rotation center axis of the rotary shaft.