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Multi-point-contact flexible bearing for harmonic reducer

A harmonic reducer and flexible bearing technology, applied in rolling contact bearings, transmission parts, belts/chains/gears, etc., can solve problems such as large contact force, insufficient ball restraint, distortion and deformation

Active Publication Date: 2016-12-07
SHANGHAI F&S BEARING TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The current flexible bearing is a single-row shallow groove radial ball bearing, and there is only one contact point between the ball and the grooved raceway of the outer ring (hereinafter referred to as the grooved raceway for short) and the raceway of the inner ring, so there are the following problems: (1 ) The external force that forces the outer ring-flexspline interference fit to undergo periodic bending deformation is the contact force between the ball and the outer ring groove. On one of the cross-sections of the cross-section, there are two problems, one is that the required contact force is too large for a given deformation, and the other is that the outer ring of the bearing and the flexspline inevitably occur along the outer ring of the bearing or the flexspline. The warping deformation in the tooth width direction and the twisting deformation in the circumferential direction will affect the meshing accuracy and transmission efficiency of the flexible spline and the rigid spline; (2) The stiffness of the bearing in the axial and angular directions is very low. Once the external load exists in the axial direction and angular components, the bearing rings and balls will undergo deformation and displacement required for non-flexible bearing functions along these two directions, which reduces the transmission efficiency and transmission accuracy of the harmonic reducer; If the constraint is not enough, a large amount of sliding components will be generated in the ball movement, which will cause the abrasion of the bearing working surface and the deterioration of the bearing accuracy.

Method used

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  • Multi-point-contact flexible bearing for harmonic reducer
  • Multi-point-contact flexible bearing for harmonic reducer
  • Multi-point-contact flexible bearing for harmonic reducer

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0046] Embodiment 1, as Figure 5A Three point contact flexible ball bearing shown

[0047] Figure 5A Among them, 51A is the outer ring of the bearing, 52A is the inner ring, 53A is the ball, 54A is the cage, and the 53A ball is embedded in the raceway of the outer ring shown in 51A and the inner ring shown in 52A and is held by the cage shown in 54A spaced along the circumference. The outer ring 51A is a peach-shaped channel composed of two semicircular arcs, and the centers of the two semicircular arcs are respectively O e1 , O e2 , the center of the ball 53A is O, the ball 53A has two contact points with the channel of the outer ring 51A, and the contact point is not at the bottom of the channel, forming a contact angle α; the inner ring 52A is a single arc channel, and the center is O i , the ball 53A has a single contact point with the channel of the inner ring 52A, the contact point is at the bottom of the channel, the contact angle is 0, and the ball 53A has three ...

Embodiment 2

[0050] Embodiment 2, as Figure 5B Four point contact flexible ball bearing shown

[0051] Figure 5B Among them, 51B is the bearing outer ring, 52B is the inner ring, 53B is the ball, 54B is the cage, and the 53B ball is embedded in the raceway of the outer ring shown in 51B and the inner ring shown in 52B and is held by the cage shown in 54B spaced along the circumference. The outer ring 51B is an elliptical arc channel, and the center of the ellipse where the elliptical arc is located is O e , the curvature of each point on the channel changes with the position, the center of the ball 53B is O, and there are two contact points with the channel of the outer ring 51B, the contact points are not at the bottom of the channel, forming a contact angle α e ; The inner ring 52B is also an elliptical arc channel, and the center of the ellipse where the elliptical arc is located is O i , the curvature of each point on the channel changes with the position, the ball 53B has two co...

Embodiment 3

[0055] Embodiment 3, as Figure 6A The shown rollers are in line type raceway infinite point contact inner ring ribless flexible roller bearing

[0056] Figure 6AAmong them, 61A is an outer ring, 62A is an inner ring, 63A is a roller inserted between the outer ring raceway and the inner ring raceway, and 64A is a cage that separates each ball 63A along the bearing circumferential direction. The outer ring 61A has double ribs, the inner ring 62A has no ribs, the outer ring 61A raceway, the inner ring 62A raceway and the generatrix of the roller 63A are all straight lines, and the roller 63A is the same as the outer ring 61A raceway and the inner ring 62A The raceway is in contact with the entire length of the roller 63A, and there are infinite contact points. In this flexible bearing, since the inner ring 62A has no rib, the inner ring 62A is a separable inner ring.

[0057] The outer ring 61A and the inner ring 62A of the flexible roller bearing are made of bearing steel, t...

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Abstract

A multi-point-contact flexible bearing for a harmonic reducer comprises a three-point-contact flexible ball bearing, a four-point-contact flexible ball bearing and a line-contact flexible roller bearing; a single rolling body and an outer ring raceway, namely, an outer ring-flexible gear interference-fit piece have two or more contact points; compared with the prior art that only one contact point exists, the multi-point-contact flexible bearing has the quality and technological advantages that the given deformation precision of the outer ring-flexible gear interference-fit piece and the meshing precision of flexible gear teeth with rigid gear teeth are improved, unnecessary additional deformation is reduced and even avoided, the contact stress of the rolling body with the raceway is reduced, sliding of the rolling body is controlled, assembling conditions and lubricating conditions of the bearing during operation are improved, and the like; and finally, the running precision and the service life of the flexible bearing, a flexible gear and even the whole harmonic reducer are improved and prolonged, and the bearing has very important actual engineering significance.

Description

technical field [0001] The invention relates to the technical field of special rolling bearings, in particular to a multi-point contact flexible bearing for a harmonic reducer and a flexspline tooth low additional deformation wave generator-flexspline assembly using the bearing. Background technique [0002] Harmonic gear reducer (hereinafter referred to as harmonic reducer) is an advanced and precise reducer, due to its outstanding advantages such as small size, light weight, small hysteresis, high positioning accuracy and transmission efficiency, and easy realization of precise position control It is widely used in precision machinery fields such as industrial robots, high-end cars, aerospace, optical instruments, and high-end printing machines. With the rise of intelligent manufacturing centered on industrial robots, harmonic reducers, together with RV reducers, have been widely valued by countries all over the world because of their inherent advanced nature. [0003] Th...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F16C27/04F16H57/021
CPCF16C27/04F16H57/021
Inventor 赵联春赵思澄陈淑英
Owner SHANGHAI F&S BEARING TECH
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