JP2016205460A - Wave gear device and method for preventing motion of rotor of wave gear device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a wave gear device capable of easily preventing a motion of a rotor for use in engaging outer peripheral teeth of flex splines with circular splines.SOLUTION: Outer peripheral teeth 2a of a flex spline 2 rotated by a wave generator are partially engaged with inner peripheral teeth 3a of a circular spline 3. The wave generator has a rotating member fixed to an input shaft and first and second rotors 12 and 13 supported by the rotating member. The first rotor and the second rotor are protruded outside the rotating member and at the same time they are arranged in a symmetrical manner around a rotating center of the rotating member. An inner wall of the flex spline is abutted against the outer periphery of the first rotor and the outer periphery of the second rotor. A flexible inner ring 4 is provided between the wave generator and the flex spline to cause a biasing force by elastic force of the flexible inner ring to act on each of the first rotor and the second rotor at their spline sides.SELECTED DRAWING: Figure 2

Description

    The present invention relates to a wave gear device and a method for preventing movement of a rotating body of a wave gear device, and more particularly, to a wave gear device that can easily prevent movement of a rotating body and a method for preventing movement of a rotating body of a wave gear device. .

    There is a wave gear device as a reduction gear used for a robot or the like. In the conventional wave gear device, the outer peripheral teeth of a flexspline rotated by a plurality of rollers attached to a rotating plate are partially meshed with the inner peripheral teeth of a circular spline (see Patent Document 1). .

Japanese Utility Model Publication No. 49-140583

    However, in the conventional wave gear device, each of the plurality of rollers receives a force toward the rotation center of the rotating plate by the flexspline, and the plurality of rollers move toward the rotation center of the rotating plate. As a result, there is a problem in that the outer peripheral teeth of the flexspline and the inner peripheral teeth of the spline are in mesh with each other, and the rotational force of the rotating plate cannot be transmitted to the circular spline.

    It is an object of the present invention to provide a wave gear device and a method for preventing movement of a rotating body of the wave gear device, which are made in consideration of the above problems.

    The wave gear device according to claim 1 is a wave gear device formed by partially meshing outer peripheral teeth of a flexspline rotated by a wave generator attached to an input shaft with inner peripheral teeth of a circular spline, The wave generator includes a rotating member attached to the input shaft, and first and second rotating bodies supported by the rotating member, and the first rotating body and the second rotating body. Projecting outward from the circumference of the rotating member and symmetrically arranged with respect to the rotation center of the rotating member, and the inner wall of the flexspline is an outer peripheral portion of the first rotating body, the first The outer peripheral portion of the first rotating body and the outer peripheral portion of the second rotating body are arranged symmetrically with respect to the rotation center of the rotating member. , The wave A flexible inner ring is provided between the generator and the flex spline, and an urging force by the elastic force of the flexible inner ring is applied to the first rotating body and the second rotating body on the flex spline side, respectively. It works.

    The wave gear device according to claim 2 is the wave gear device according to claim 1, wherein the first rotating body is a first bearing, the second rotating body is a second bearing, The first bearing and the second bearing are attached to the rotating member by screws and nuts, and a groove is provided on the outer periphery of the flexible inner ring. The first bearing and the second bearing are provided in the groove. Is locked.

    According to a third aspect of the present invention, there is provided the method for preventing movement of a rotating body of a wave gear device, wherein the outer peripheral teeth of a flexspline rotated by a wave generator attached to an input shaft are partially meshed with the inner peripheral teeth of a circular spline. The wave generator includes a rotating member attached to the input shaft, and first and second rotating bodies supported by the rotating member, and the first The rotating body and the second rotating body protrude outward from the circumference of the rotating member, and are disposed symmetrically with respect to the rotation center of the rotating member, and the inner wall of the flexspline is the first wall. The outer peripheral part of the rotating body and the outer peripheral part of the second rotating body are in contact with each other, and the outer peripheral part of the first rotating body and the outer peripheral part of the second rotating body are rotations of the rotating member. Symmetric about the center And a flexible inner ring is provided between the wave generator and the flexspline, and an urging force by the elastic force of the flexible inner ring is applied to the first rotating body and the second rotating body. Each acts on the side of the flexspline.

    According to the wave gear device of the first aspect, since the first rotating body and the second rotating body protrude outside the circumference of the rotating member, the first rotating body and the second rotating body are The flex spline receives a force in the direction of the rotation center of the rotating member and tries to move the first rotating body and the second rotating body toward the rotation center of the rotating member. The above-mentioned movement can be easily prevented by applying an urging force by force to the first rotating body and the second rotating body on the side of the flexspline, and the outer periphery teeth of the flexspline and the inner periphery of the circular spline. It is possible to prevent troubles in meshing with teeth.

    According to the wave gear device of the second aspect, in addition to the effect of the first aspect of the invention described above, a groove is provided on the outer periphery of the flexible inner ring, and the first bearing and the groove are provided in the groove. Since the second bearing is locked, the flexible inner ring can be easily attached to the first bearing and the second bearing, and the movement of the first bearing and the second bearing can be easily prevented. In addition, the first bearing and the second bearing are locked in the groove, and the flexible inner ring is less likely to be detached.

   Further, according to the method for preventing movement of the rotating body of the wave gear device according to claim 3, the first rotating body and the second rotating body protrude outward from the circumference of the rotating member. The rotating body and the second rotating body receive a force in the direction of the rotation center of the rotating member by the flexspline, and try to move the first rotating body and the second rotating body toward the rotation center of the rotating member. However, the urging force by the elastic force of the flexible inner ring can be applied to the first rotating body and the second rotating body on the side of the flex spline to easily prevent the movement. It is possible to prevent troubles in meshing between the outer peripheral teeth and the inner peripheral teeth of the circular spline.

FIG. 1 is a schematic exploded view showing an exploded wave gear device according to an embodiment of the present invention. FIG. 2 is a schematic cross-sectional view of the wave gear device of FIG. 1 in an assembled state. FIG. 3 is a schematic cross-sectional view taken along line 2-2 of FIG. FIG. 4 is a schematic partially enlarged sectional view showing a part of FIG. 2 in an enlarged manner. FIG. 5 is a schematic perspective view of the flexible inner ring of FIG.

     A wave gear device according to an embodiment of the present invention and a method for preventing movement of a rotating body of the wave gear device will be described with reference to the drawings.

1 is a wave gear device. The wave gear device H is a flex spline (flexible external gear) that is rotated by a wave generator (wave generator) 1 attached to an input shaft (not shown). 2 outer peripheral teeth 2 a are partially meshed with the inner peripheral teeth 3 a of a circular spline (rigid internal gear) 3.
The meshing state of the outer peripheral teeth 2 a and the inner peripheral teeth 3 a is determined by the deformation state of the flex spline 2. The deformation state of the flex spline 2 is determined by the major axis dimension of the wave generator 1 mounted on the inside thereof. In the present embodiment, the major axis dimension is the first rotating body, which will be described later, mounted on the wave generator 1, for example, the outer circumference of the first bearing 12, and the second rotating body, for example, the second bearing. It is a separation dimension with the outer peripheral dimension of 13.

The wave generator 1 has first and second bearings 12 and 13 supported by a rotating member 11 attached to an input shaft (not shown).
The first bearing 12 is attached to the rotating member 11 with a first screw 14 and a first nut 15.
The second bearing 13 is attached to the rotating member 11 with a second screw 16 and a second nut 17.
As shown in FIG. 3, the first bearing 12 and the second bearing 13 protrude outward from the circumference of the rotating member 11 and are disposed symmetrically with respect to the rotation center of the rotating member 11. Yes.

    Further, the inner wall 2 b of the flex spline 2 abuts on the outer peripheral portion of the first bearing 12 and the outer peripheral portion of the second bearing 13, and the outer peripheral portion of the first bearing 12 and the outer periphery of the second bearing 13. Are arranged symmetrically with respect to the rotation center of the rotating member 11.

Further, a flexible inner ring 4 is provided between the wave generator 1 and the flex spline 2, and the urging force due to the elastic force of the flexible inner ring 4 is applied to the first bearing 12 and the second bearing 13, respectively. It acts on the side of the flexspline 2.
The first bearing 12 and the second bearing 13 are attached by the first screw 14 and the second screw 16, and therefore, between the first screw 14 and the first mounting hole 18, A gap is formed between each of the second screw 16 and the second mounting hole, and the first bearing 12 and the second bearing 13 are arranged in the direction of the rotation center of the rotating member 11 by the flex spline 2. The first bearing 12 and the second bearing 13 try to move toward the rotation center of the rotating member 11 under the force of
The movement of the flex spline 2 can be easily prevented by applying an urging force due to the elastic force of the flexible inner ring 4 to the first bearing 12 and the second bearing 13 on the flex spline 2 side. It is possible to prevent troubles in meshing between the outer peripheral teeth 2a and the inner peripheral teeth 3a of the circular spline 3.
The positions of the first and second bearings 12 and 13 are determined by the balance between the force from the outside by the circular spline 3 and the force from the inside by the flex spline 2. At this time, the thicknesses of the flexspline 2 and the circular spline 3 are designed so that the force acting from the inside by the flexspline 2 is slightly stronger than the force acting from the outside by the circular spline 3. The force of the second bearings 12 and 13 works outward.
By this force, the flexspline 2 is expanded outward by the first and second bearings 12 and 13, and the outer peripheral teeth 2a mesh with the inner peripheral teeth 3a.
And the groove part 4a is provided in the outer periphery of the flexible inner ring | wheel 4, The 1st bearing 12 and the 2nd bearing 13 are latching in this groove part 4a (refer FIG. 2 thru | or FIG. 4). As a result, there is an effect that the flexible inner ring 4 is not easily detached from the first and second bearings 12 and 13.
In the present embodiment, the first rotating body has been described as the first bearing 12, and the second rotating body as the second bearing 13. However, the present invention is not limited to this, It is the 1st, 2nd rotary body also including the roller etc. which are circular rotary bodies.

    Therefore, according to the above-described wave gear device (method for preventing movement of the rotating body of the wave gear device), the first rotating body 12 and the second rotating body 13 protrude outward from the circumference of the rotating member 11. Therefore, the first rotating body 11 and the second rotating body 12, 13 receive a force in the direction of the rotation center of the rotating member 11 by the flex spline 2, and the first rotating body 12 and the second rotating body 13. Tends to move toward the rotation center of the rotating member 11, but the urging force by the elastic force of the flexible inner ring 4 is applied to the first rotating body 12 and the second rotating body 13 respectively on the flex spline 2 side. By acting, the movement can be easily prevented, and it is possible to prevent the meshing between the outer peripheral teeth 2a of the flexspline 2 and the inner peripheral teeth 3a of the circular spline 3 from being hindered.

H wave gear device 1 wave generator 11 rotating member 12 first rotating body 13 second rotating body 2 flexspline 2a outer peripheral tooth 2b inner wall 3 circular spline 3a inner peripheral tooth 4 flexible inner ring

Claims (3)

A wave gear device in which outer peripheral teeth of a flexspline rotating by a wave generator attached to an input shaft are partially meshed with inner peripheral teeth of a circular spline,
The wave generator has a rotating member attached to the input shaft, and first and second rotating bodies supported by the rotating member,
The first rotating body and the second rotating body protrude outward from the circumference of the rotating member, and are arranged symmetrically with respect to the rotation center of the rotating member,
The inner wall of the flexspline is in contact with the outer peripheral portion of the first rotating body, the outer peripheral portion of the second rotating body,
The outer peripheral portion of the first rotating body and the outer peripheral portion of the second rotating body are arranged symmetrically with respect to the rotation center of the rotating member,
A flexible inner ring is provided between the wave generator and the flexspline;
A wave gear device, wherein an urging force generated by an elastic force of the flexible inner ring is applied to the first rotating body and the second rotating body on the flex spline side. The first rotating body is a first bearing, the second rotating body is a second bearing,
The first bearing and the second bearing are attached to the rotating member by screws and nuts,
The wave gear device according to claim 1, wherein a groove portion is provided on an outer periphery of the flexible inner ring, and the first bearing and the second bearing are locked in the groove portion. A wave gear device in which outer peripheral teeth of a flexspline rotating by a wave generator attached to an input shaft are partially meshed with inner peripheral teeth of a circular spline,
The wave generator has a rotating member attached to the input shaft, and first and second rotating bodies supported by the rotating member,
The first rotating body and the second rotating body protrude outward from the circumference of the rotating member, and are arranged symmetrically with respect to the rotation center of the rotating member,
The inner wall of the flexspline is in contact with the outer peripheral portion of the first rotating body, the outer peripheral portion of the second rotating body,
The outer peripheral portion of the first rotating body and the outer peripheral portion of the second rotating body are arranged symmetrically with respect to the rotation center of the rotating member,
A flexible inner ring is provided between the wave generator and the flexspline;
An urging force generated by an elastic force of the flexible inner ring is applied to the first rotating body and the second rotating body on the flex spline side, respectively. .

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