Friction roller reducer and drive unit for electric automobile

摘要

Construction of a friction roller reducer is achieved wherein displacement of intermediate rollers due to the change in thickness in the axial direction of loading cam apparatuses can be performed smoothly, and excellent transmission efficiency can be obtained. Long guide holes that are long in the radial direction of a sun roller and ring-shaped roller are provided in guide blocks that are fastened to a support frame for supporting the end sections of rotation shafts of intermediate rollers. The outer rings of ball bearings, of which the inner rings are fitted around and fastened to the outside of the end sections of the rotation shafts, engage with the long guide holes so as to be able to displace in the radial direction of the sun roller and the ring-shaped roller.

主权项

1. A friction roller reducer, comprising:
a sun roller that comprises a pair of sun roller elements that are separated in an axial direction and located around an input shaft, so that when there is a space between tip end surfaces of each, each is concentric and is capable of relative rotating with respect to the input shaft, and each has an outer circumferential surface that has an inclined surface that is inclined in a direction such that an outer diameter thereof becomes smaller going toward the respective tip end surface; a ring-shaped roller that is located around an outside of the sun roller so as to be concentric with the sun roller, and has an inner circumferential surface; a plurality of intermediate rollers that are supported at a plurality of locations in a circumferential direction of a ring-shaped space between the outer circumferential surface of the sun roller and the inner circumferential surface of the ring-shaped roller so as to be able to rotate freely around rotation shafts that are arranged parallel with the input shaft, and each intermediate roller has an outer circumferential surface that comes in rolling contact with the outer circumferential surface of the sun roller and the inner circumferential surface of the ring-shaped roller; a loading cam apparatus that is provided between at least one movable sun roller element of the sun roller elements and the input shaft, and comprises: driven-side cam surfaces that are provided at a plurality of locations in the circumferential direction of a base end surface of the movable sun roller element, and each is shaped such that a depth in the axial direction thereof gradually changes in the circumferential direction and becomes more shallow going toward an end section thereof; driving-side cam surfaces that are provided at a plurality of locations in the circumferential direction of the surface on one side of a cam plate that faces the base end surface of the movable sun roller element, and each is shaped such that a depth in the axial direction thereof gradually changes in the circumferential direction and becomes more shallow going toward an end section thereof; and a plurality of rolling bodies that are held between the driven-side cam surfaces and the driving-side cam surfaces; and as the input shaft rotates, causes the movable sun roller element to rotate while pressing the movable sun roller element in the axial direction toward the other sun roller element; and an oscillating mechanism that causes each of the intermediate rollers to oscillate and move in a radial direction of the sun roller and the ring-shaped roller as a thickness in the axial direction of the sun roller changes due to displacement in the axial direction of the movable sun roller element; and either one of the ring-shaped roller or a member that supports the rotation shafts being fastened, and the other member being connected to an output shaft, such that the other member rotates and drives the output shaft, wherein the oscillating mechanism is constructed by: a plurality of pivot frames that supports the intermediate rollers so as to be able rotate freely around the respective rotation shafts, and a support frame that supports the pivot frames so as to be able to move in the radial direction of the sun roller and the ring-shaped roller, and the pivot frames are supported by the support frame so as to be able to pivotally move around each of a plurality of pivot shafts that are parallel with the rotation shafts and that are located on the support frame such that a phase of the pivot shafts with regard to an arrangement thereof in the direction of rotation of the sun roller is separated from the rotation shafts; and the pivot frames support the rotation shafts so as to be able to move in the radial direction of the sun roller and the ring-shaped roller.