摘要:
A belt for continuously variable transmission, wherein the relationship between the thickness of the metal ring assembly and the groove width of the ring slot is established so that a limit rolling angle &agr; defined as a rolling angle of the metal elements provided when a radially outer peripheral surface of the metal ring assembly contacts a radially outer edge of the ring slot in the metal element is in a range of 0.7°
摘要:
A belt for a continuously variable transmission includes a metal element 32 having a rocking edge 40 between a main surface 38 and a slope 41 on the front side of the metal element in the advancing direction and a ring slot 35, into which a metal ring assembly 31 is fitted, between an element body 34 and an ear portion 36. The position of the center of gravity G of the metal element 32 is regulated to the outside of the rocking edge 40 and to the inside of a radially outer end 351 of the ring slot 35. Therefore, a relation Vr
摘要:
A V-face of a metal element is prevented from being inclined due to a load from a pulley by increasing the height Hs of an upper non-contact portion of the V-face of the metal element. For example, when the height of the V-face is represented by Hv (mm), and the height of the upper non-contact portion of the V-face is represented by Hs (mm), the height Hv of the V-face and the height Hs of the upper non-contact portion are set so that a relationship −0.5265Hv+2.768≦Hs≦−0.5934Hv+3.524 is established.
摘要:
In a belt for a continuously variable transmission, a first line on a lower edge of an element body of a metal element is determined, and a second line straightforwardly connecting a lower end of a V-face to which a load is applied from a V-groove in a pulley and an inner end of a saddle surface is determined, so that when a downward load is applied from a metal ring assembly to an outer end of the saddle surface, the folding-resistant strength of the element body is uniform laterally. The position of the recess is determined in the vicinity of a point of intersection of the first and second lines. The lower edge of the element body is defined by the first line inside the recess and by the second line outside the recess. The durability of the metal element can be enhanced by devising the shape of the lower edge of the element body of the metal element in this manner.
摘要:
A method of computing a belt tension distribution based on a multibody modeling method for the metal pushing V-Belt for CVTs. In order to reduce the complexity of the model, the ring is modeled as a virtual element that exists only as the second order differential equation. The virtual ring concept relies upon the instant locations and orientations of the blocks to compute total length, local bending, block-to-ring friction distribution, and friction-induced tension distribution of the ring. Simulation results show a good agreement with experimental results both in ring tension distribution and block compression distribution along the belt.
摘要:
A belt for a continuously variable transmission comprises endless plate-like rings 2 and a plurality of plate-like elements 3, which are placed adjacent to one another and slidably on the rings 2, so that the rings 2 are disposed on the saddle portions 34 of the elements 3, respectively. In each element 3, a first recess 42 is provided at the upper innermost part of each saddle portion 34 such that the first recess 42 is continuous to a corresponding lower side end of the neck portion 33. In addition, a second recess 43 is provided at the lower innermost part of each ear portion 35 such that the second recess 43 is continuous to a corresponding upper side end of the neck portion 33. At least one of the first and second recesses 42 and 43 is in an elliptic arc figure, in a compound arc figure that comprises various circular arcs or in a compound arc figure that comprises an elliptic arc and one or more circular arcs.
摘要:
A belt for a continuously variable transmission comprises endless plate-like rings 2 and a plurality of plate-like elements 3, which are placed adjacent to one another and slidably on the rings 2, so that the rings 2 are disposed on the saddle portions 34 of the elements 3, respectively. In each element 3, a first recess 42 is provided at the upper innermost part of each saddle portion 34 such that the first recess 42 is continuous to a corresponding lower side end of the neck portion 33. In addition, a second recess 43 is provided at the lower innermost part of each ear portion 35 such that the second recess 43 is continuous to a corresponding upper side end of the neck portion 33. At least one of the first and second recesses 42 and 43 is in an elliptic arc figure, in a compound arc figure that comprises various circular arcs or in a compound arc figure that comprises an elliptic arc and one or more circular arcs.