Insertion guide and insertion guide device

The invention claimed is: 1. A combination of a shaft, a hole and an insertion guide to be used at a time of inserting the shaft into the hole, wherein at least one of the shaft and hole is supported for relative movement with respect to the other of the shaft and hole under the control of a controller, the insertion guide including: a first guide portion, provided at a distal end of the shaft to be inserted into the hole, and having a diameter smaller than a diameter of the hole and a shape being in contact with the hole at one point or less; a first narrow cylindrical portion, provided on a base end side of the first guide portion, and having a diameter smaller than the diameter of the first guide portion; a third guide portion, provided at the distal end of the shaft, and being a recessed portion to be engaged with a protruding portion formed in the hole to determine a phase of rotation around an axis of the shaft; a second guide portion, provided on a base end side of the first narrow cylindrical portion, having a diameter smaller than the diameter of the hole and larger than the diameter of the first narrow cylindrical portion and a shape being in contact with the hole at one point or less, wherein the diameter and a length of the second guide portion are configured, when the controller controls the relative movement such that the second guide portion is inserted into the hole and the third guide portion is in contact with the protruding portion, to cause inclination of the shaft with respect to the hole, the inclination being equal to or less than a minimum angle error, the minimum angle error being an angle at which the phase can be corrected without correcting the inclination of the shaft with respect to the hole; and a second narrow cylindrical portion, provided on a base end side of the second guide portion, and having a diameter smaller than the diameter of the second guide portion, the diameter and a length of the second narrow cylindrical portion being configured to cause the shaft to be in contact with the hole at two points or less, under a state in which the controller controls the relative movement such that the second guide portion is inserted into the hole and the third guide portion is in contact with the protruding portion. 2. The combination according to claim 1 , wherein shapes of the first guide portion and the first narrow cylindrical portion are configured to cause the first guide portion to be inserted into the hole, while inclination of the shaft with respect to the hole is equal to or less than a maximum rotation error. 3. The combination according to claim 1 , wherein the shaft further includes a fourth guide portion, provided on a base end side of the second narrow cylindrical portion, having a diameter smaller than the diameter of the hole and larger than the diameter of the second narrow cylindrical portion, and being configured to reduce inclination of the shaft with respect to the hole through being in contact with the hole, and wherein the fourth guide portion is formed so as to be brought into contact with the hole before the protruding portion is brought into contact with a bottom surface of the third guide portion. 4. The combination according to claim 1 , wherein one of the first guide portion, the second guide portion, and the third guide portion has one of a tapered shape and a shape having a curvature at a distal end side thereof. 5. The combination according to claim 1 , further comprising a hole translation guide incorporated in the hole and having one of a tapered shape and a shape having a curvature. 6. The combination according to claim 1 , further comprising a force detector configured to detect a rotation moment applied to the shaft wherein, a length of the first narrow cylindrical portion is configured to cause, under a state in which each of the first guide portion and the second guide portion is in contact with the hole at one point, the rotation moment to be larger than a detection resolution of the force detector. 7. The combination according to claim 1 , wherein the diameter of the second narrow cylindrical portion is determined so as to maintain a state in which each of the first guide portion and the second guide portion is in contact with the hole at one point or less, and the third guide portion is in contact with the protruding portion at one point or less while the phase is corrected. 8. The combination according to claim 1 , wherein dimensions of the first guide portion, the first narrow cylindrical portion, the second guide portion, the second narrow cylindrical portion, and the third guide portion are designed so as to satisfy expressions of: 30 D> 100 H ×sin(Δ REXY max)+100 D ×cos(Δ REXY max) TXY 1= {right arrow over (LA)}×{right arrow over (FA)}+{right arrow over (LE)}×{right arrow over (FE)}=TXY 1 A−TXY 1 E> 1000 RES 30 H− 31 H /cos Δ REXY min>100 H+ 200 H+ 300 H arctan((100 D− 400 D )/2/{(30 H− 32 H )/cos(Δ REXY min)−100 H− 200 H− 300 H })>Δ REXY min where: 30 D represents an inner diameter of the hole; 30 H represents a depth of the hole; 31 H represents a distance between an upper end of the protruding portion and a bottom surface of the hole; 32 H represents a distance between a lower end of the protruding portion and the bottom surface of the hole; 100 H represents a height of the first guide portion; 100 D represents a maximum diameter of the first guide portion; 200 H represents a height of the first narrow cylindrical portion; 300 H represents a height of the second guide portion; 400 D represents a maximum diameter of the second narrow cylindrical portion; TXY 1 represents a rotation moment caused by a force FA generated at a first contact point between the first guide portion and the hole and a force FB generated at a second contact point between the second guide portion and the hole; the vector LA represents a vector from a force detector configured to detect a rotation moment applied to the shaft to the first contact point; the vector LB represents a vector from the force detector to the second contact point; 1000 RES represents a detection resolution of the force detector; ΔREXYmax represents a maximum value of a rotation error between the shaft and the hole; and ΔREXYmin represents a rotation error which remains after rotation correction of the second guide portion. 9. The combination according to claim 8 , wherein the shaft further includes a fourth guide portion, provided on a base end side of the second narrow cylindrical portion, having a diameter smaller than the diameter of the hole and larger than the diameter of the second narrow cylindrical portion, and is configured to reduce inclination of the shaft with respect to the hole through being in contact with the hole, wherein the fourth guide portion is formed so as to be brought into contact with the hole before the protruding portion is brought into contact with the bottom surface of the third guide portion, and wherein dimensions of the first guide portion, the first narrow cylindrical portion, the second guide portion, the second narrow cylindrical portion, the third guide portion, and the fourth guide portion are designed so as to further satisfy expressions of: 30 H− 31 H /cos(Δ REXY min>100 H+ 200 H+ 300 H +400 H −500 H (30 H /cos(Δ REXY min)>100 H+ 200 H+ 300 H+ 400 H Δ REXY min=arctan(30 D− 100 D ×cos Δ REXY min/30 H ) where: 400 H represents a height of the second narrow cylindrical portion; and 500 H represents a depth of the third guide portion. 10. A combination of a shaft, a hole and an insertion guide device, wherein at least one of the shaft and hole is su