Patent ID: 9052004
Filing Date: 2015-06-09
Classification: F16H,Y10T

Abstract:
1. A wave gear device having a three-dimensional contact tooth profile, comprising: a rigid internally toothed gear; a flexible externally toothed gear disposed coaxially on an inner side of the internal gear; and a wave generator fitted into an inner side of the external gear, wherein the flexible externally toothed gear has a flexible cylindrical barrel part, a diaphragm extending in a radial direction from a rear edge of the cylindrical barrel part, and external teeth formed on a portion of an external circumferential surface toward a front-edge opening of the cylindrical barrel part; the flexible externally toothed gear is deflected into an ellipsoidal shape by the wave generator and partially meshing with internal teeth of the rigid internally toothed gear; the rigid internally toothed gear and the flexible externally toothed gear both are spur gears of module m; a number of teeth of the flexible externally toothed gear is 2n fewer than a number of teeth of the rigid internally toothed gear, where n is a positive integer; in an axially perpendicular cross-section of the external teeth at an arbitrary position in a tooth-trace direction, an amount of deflection at a major-axis position on an ellipsoidal rim-neutral curve of the flexible externally toothed gear relative to a rim-neutral circle before the external teeth are deflected into an ellipsoidal shape is 2κmn, where κ is a deviation factor; the amount of deflection increases in proportion to a distance from the diaphragm along the tooth-trace direction of the external tooth from an external-tooth inner edge toward the diaphragm to an external-tooth outer edge toward the front-edge opening; taking as a main cross-section an axially perpendicular cross-section at a position partway between the external-tooth inner edge and the external-tooth outer edge in the tooth-trace direction of the external tooth, a deflection state of the main cross-section is set to a zero-deviation deflection where a deviation factor κ is 1, a deflection state at the external-tooth inner edge is a negative-deviation deflection where the deviation factor is such that κ<1, and a deflection state at the external-tooth outer edge is a positive-deviation deflection where the deviation factor is such that κ>1; a movement trajectory of the external tooth in relation to the internal tooth as the wave generator rotates, in an instance where meshing between the external teeth and the internal teeth is approximated using rack meshing, is defined by equation (1) in a case when an x-axis is a tandem-movement direction of the rack, a y-axis is a direction perpendicular to the tandem-movement direction, and an origin of the y-axis is set as an average position of an amplitude of the movement trajectory, with respect to each axially perpendicular cross-section; a first similarity curve defined in equation (2) is a similarity curve BC, obtained by subjecting a first curve portion AB extending from a peak point A to a bottom point B to a λ-fold transformation using point B as a center of similarity, where A is the peak point on the movement trajectory obtained on the main cross-section of the external tooth, B is the next bottom point after peak point A, and λ is set as a positive value less than 1; a second similarity curve defined in equation (3) is a similarity curve AC, obtained by subjecting a second curve, obtained by rotating the first similarity curve BC 180 degrees about a point C on the first similarity curve BC, to a {(1−λ)/λ}-fold transformation using point C as a center of similarity; a basic tooth profile shape defining a tooth profile on the main cross-section of the external tooth is defined by: an addendum tooth-profile portion defined using a curve portion between point A and intersection-point D on the second similarity curve AC; a straight-line tooth-profile portion defined by a portion of a straight line L extending from intersection-point D; and a flank tooth-profile portion connected to the straight-line tooth-profile portion, where α is a positive value less than 20, L is the straight line passing through point C on the second similarity curve AC and having an incline angle of α degrees in relation to the y-axis, and D is the point of intersection between the straight line L and the second similarity curve AC; the curve defining the flank tooth-profile portion being a curve that does not contribute to the meshing of the gears and is set so as to avoid interference with the inner tooth; a tooth profile on each axially perpendicular cross-section of the external tooth from the main cross-section to the external-tooth outer edge is defined by a profile-shifted tooth profile obtained by performing profile shifting in an x-axis direction and a y-axis direction in relation to the basic tooth-profile on each axially perpendicular cross-section until the straight-line tooth-profile portion on the movement trajectory described by the basic tooth-profile shape on each axially perpendicular cross-section is consistent with the straight-line tooth-profile portion on the movement trajectory described by the basic tooth-profile shape on the main cross-section; a tooth profile on each axially perpendicular cross-section of the external tooth from the main cross-section to the external-tooth inner edge is defined by a profile-shifted tooth profile obtained by performing profile shifting in the y-axis direction in relation to the basic tooth-profile shape on each axially perpendicular cross-section such that the movement trajectory described by the basic tooth-profile shape on each axially perpendicular cross-section is tangent to a bottom of the movement trajectory described by the basic tooth-profile shape on the main cross-section; and the tooth profile of the inner tooth is defined by an addendum tooth-profile portion defined by a curve portion between the point B on the first similarity curve BC and an intersection point E, a straight-line tooth-profile portion defined by a portion of the straight line extending from the intersection point E, and a flank tooth-profile portion connecting to the straight-line tooth-profile portion, where E is the point of intersection between the straight line L and the first similarity curve BC; the curve defining the flank tooth-profile portion being a curve that does not contribute to the meshing of both gears and is set so as to avoid interference with the outer tooth.