Toner classification apparatus and toner production method

What is claimed is: 1. A toner classification apparatus comprising a classification rotor supported for rotation in a direction of rotation in order to carry out a classification process, wherein the classification rotor comprises a plurality of vanes that extend from a side of a center of rotation of the classification rotor to an outer circumference side of the classification rotor; the plurality of vanes are disposed with prescribed gaps established between the vanes; the gaps form an opening that faces a region of the center of rotation of the classification rotor; each of the vanes is disposed such that a portion of a vane away from the center of rotation of the classification rotor is located on a more upstream side in the direction of rotation of the classification rotor than a portion of the vane closer to the center of rotation of the classification rotor; each of the vanes has an elbow; and in a horizontal cross section provided by sectioning the classification rotor in a direction perpendicular to a rotational axis of the classification rotor, (i) an angle θ 1 is formed between a straight line that connects the center of rotation of the classification rotor to the vane end on the side of the center of rotation, and a straight line that connects the vane end on the side of the center of rotation to the vane elbow, with the angle θ 1 being from 30° to 65°, (ii) using L 1 for a distance from the center of rotation of the classification rotor to the vane end on the outer circumference side, L 2 for a distance from the center of rotation of the classification rotor to the vane end on the side of the center of rotation, and L 3 for a distance from the center of rotation of the classification rotor to the vane elbow, formula below is satisfied: 0.65≤( L 3− L 2)/( L 1− L 2)≤0.85, (iii) an angle θ 2 is formed between a straight line that connects the vane end on the side of the center of rotation to the vane elbow, and a straight line that connects the vane elbow to the vane end on the outer circumference side, with the angle θ 2 being from 5° to 25°, and (iv) a sum of the θ 1 and the θ 2 is from 55° to 85°. 2. The toner classification apparatus according to the claim 1 , wherein the sum of the θ 1 and the θ 2 is from 65° to 85°. 3. The toner classification apparatus according to claim 1 , further comprising: a body casing; guide means disposed in a state of overlapping at least a portion of the classification rotor; an introduction port for particles to be classified and supply means for the particles to be classified that comprises the introduction port for particles to be classified, these being formed in a side surface of the body casing to introduce the particles to be classified; particles having too small diameter discharge port and a classified particle take-off port, these being formed in a side surface of the body casing to discharge, to outside of the body casing, classified particles from which the particles having too small diameter have been excluded; and a dispersion rotor that is a rotating body attached, within the body casing, to a central rotational axle and that comprises a dispersion hammer on the side surface of the classification rotor side of the dispersion rotor. 4. The toner classification apparatus according to claim 3 , further comprising a liner that faces the dispersion rotor while maintaining a distance therefrom, wherein the liner is fixed on an inner side surface of the body casing. 5. The toner classification apparatus according to claim 4 , wherein grooves are disposed in a surface of the liner, the surface facing the dispersion rotor. 6. A toner production method comprising a classification step of carrying out a classification process on particles to be classified by using a toner classification apparatus, wherein the toner classification apparatus comprises a classification rotor supported for rotation, wherein the classification process is carried out by rotating the classification rotor in a direction of rotation, the classification rotor comprises a plurality of vanes that extend from a side of a center of rotation of the classification rotor to an outer circumference side of the classification rotor, the plurality of vanes are disposed with prescribed gaps established therebetween, the gaps form an opening that faces a region of the center of rotation of the classification rotor, each of the vanes is disposed such that a portion of a vane away from the center of rotation of the classification rotor is located on a more upstream side in the direction of rotation of the classification rotor than a portion of the vane closer to the center of rotation of the classification rotor; each of the vanes has an elbow, and in a horizontal cross section provided by sectioning the classification rotor in a direction perpendicular to a rotational axis of the classification rotor, (i) an angle θ 1 is formed between a straight line that connects the center of rotation of the classification rotor to the vane end on the side of the center of rotation, and a straight line that connects the vane end on the side of the center of rotation with the vane elbow, with the angle θ 1 being from 30° to 65°, (ii) using L 1 for a distance from the center of rotation of the classification rotor to the vane end on the outer circumference side, L 2 for a distance from the center of rotation of the classification rotor to the vane end on the side of the center of rotation, and L 3 for a distance from the center of rotation of the classification rotor to the vane elbow, formula below is satisfied: 0.65≤( L 3− L 2)/( L 1− L 2)≤0.85, (iii) an angle θ 2 is formed between a straight line that connects the vane end on the side of the center of rotation to the vane elbow, and a straight line that connects the vane elbow to the vane end on the outer circumference side, with the angle θ 2 being from 5° to 25°, and (iv) a sum of the θ 1 and the θ 2 is from 55° to 85°. 7. The toner production method according to the claim 6 , wherein the sum of θ 1 and θ 2 is from 65° to 85°. 8. The toner production method according to claim 6 , wherein the toner classification apparatus further comprises: a body casing; guide means disposed in a state of overlapping at least a portion of the classification rotor; an introduction port for particles to be classified and supply means for the particles to be classified that comprises the introduction port for particles to be classified, these being formed in a side surface of the body casing to introduce the particles to be classified; particles having too small diameter discharge port and a classified particle take-off port, these being formed in a side surface of the body casing to discharge, to outside of the body casing, classified particles from which the particles having too small diameter have been excluded; and a dispersion rotor that is a rotating body attached, within the body casing, to a central rotational axle and that comprises a dispersion hammer on the side surface of the classification rotor side of the dispersion rotor. 9. The toner production method according to claim 8 , further comprising a liner that faces the dispersion rotor while maintaining a distance therefrom, wherein the liner is fixed on an inner side surface of the body casing. 10. The toner production method according to claim 9 , wherein grooves are disposed in a surface of the liner, the surface facing the dispersion rotor.