Cutting tool and method for machining workpiece

The invention claimed is: 1. A machining method for machining a hole formed in a workpiece, comprising the steps of: (i) preparing a tool comprising a shaft-shaped tool body having a first end which extends along a central axis and which is for attachment to a spindle of a machine tool, and a second end on a side opposite the first end, and a tip connected to the second end of the shaft-shaped tool body, the tip having a plurality of blade parts in the circumferential direction, (ii) attaching the tool to a spindle of a machine tool, (iii) arranging the tool relative to an aperture of the hole formed in the workpiece at a tilt angle, which represents an angle between a movement direction of the tool and the central axis of the tool, of 120 to 240° when viewed in a direction of a line perpendicular to a surface to be machined, (iv) moving the tool along an inner surface of the hole from the aperture of the hole toward the interior thereof to machine the inner surface, (v) returning the tool from the interior of the hole toward the aperture in a state in which the tool is separated from the inner surface of the hole, and (vi) moving the tool along a peripheral edge of the aperture of the hole at a predetermined pick feed, wherein steps (iii) to (vi) are repeated multiple times. 2. The machining method according to claim 1 , wherein step (i) further comprises: determining a shape of the tip based on a shape of the aperture of the hole, and determining a shape of the shaft-shaped tool body so that it does not interfere with the inner surface of the hole when the tip is arranged at a deepest position in the hole which the tip can reach, and so as to maximize the thickness thereof. 3. The machining method according to claim 1 , wherein the tip of the tool has a central part including a tip surface of the tool, the plurality of blade parts protrude radially outwardly from the central part, a cutting edge of each blade part includes a main cutting edge adjacent to the tip surface, and each main cutting edge has a contour forming an angle of 30 to 150° relative to the central axis in a cross-sectional view including the central axis, the step (iii) comprises setting a lead angle representing an angle between the line perpendicular to the surface to be machined and the central axis of the tool, and the pick feed P of the step (vi) is calculated from the following formula: P = 8 ⁢ RH cos ⁢ ( 90 - θ l ) [ Math ⁢ 1 ] where R: the radius between the central axis of the tool and an outermost diameter of the blade part, H: cusp height, θt: tilt angle, and θl: lead angle.