CH153265A - Stepless gear. - Google Patents

Description

  

  Stepless gear. The present invention relates to a continuously variable transmission with two conical rotating bodies on which an endless drive element, for the purpose of regulating the gear ratio in the longitudinal direction of the rotating body on this is slidable ver. Such gears are already known, but the adhesion of the drive element in relation to the rotating bodies leaves something to be desired.



  The present subject matter of the invention overcomes this disadvantage, namely in that on the circumference of the rotating body in the longitudinal direction of which grooves are distributed, into which, during rotation, resiliently loaded grippers of the driving element engage.



  The subject matter of the invention is shown in an exemplary embodiment in the accompanying drawing, namely: FIG. 1 shows a front view of the transmission, FIG. 2 shows a plan view, FIGS. 3 and 4 show details of the drive element in longitudinal section and cross-section. The transmission shown has two conical rotary bodies 1, 2 which are rotatably supported in bearings 3. The Rota tion body 1 is driven, for example, by any power source via the sprocket 4, which rotary movement by means of the drive member 5 is communicated to the rotary body 2 in accelerating, decelerating or constant speed, which drive member 5 for this purpose with a known regulator according to the arrows in the axial direction of the rotary body 1, 2 can be moved on this.



  According to the present invention, the rotating bodies 1, 2 have grooves 6, 61 distributed around the circumference. They take advantage of a somewhat oblique position with respect to the axes of rotation. The drive element 5 itself consists of articulated links 7 which swing about the axes 8. In each joint member 7 there are grippers 9, un dependent on each other, standing under the action of compression springs 10, arranged, transversely to the longitudinal direction of the joint members 7 movable. These grippers 9 are in front of the inner surfaces 11 of the joint members, but they can move against the action of the springs 10 in the joint members 7 up to the inner surfaces 11 thereof.

   When rotating the rotating body 1, 2 such grippers 9 come to lie in the grooves 6, 61 and thereby prevent slipping of the drive member 5 on the Rota tion bodies, especially when they have to overcome greater forces. The grippers 9 that do not reach into the grooves are pressed intensively against the running surfaces of the rotating bodies by the springs 10 and thereby ensure the best possible adhesion.



  Of course, more or less grippers made of any suitable material can be provided in a joint member than are shown.

 

Claims (1)

PATENT CLAIM: Continuously variable transmission with two conical rotary bodies on which an endless drive element can be displaced on these ver for the purpose of regulating the transmission ratio in the longitudinal direction of the rotary body, characterized in that in the latter, in the longitudinal direction thereof, grooves distributed over the circumference are provided, in which spring loaded grippers of the drive element grip during rotation, while the other grippers press spring-loaded against the resting surfaces of the rotating body. SUBCLAIMS 1. Continuously variable transmission according to claim, characterized in that the spring-loaded grippers (9), through which the running surface of the drive element is formed, rest axially displaceably in articulated joint members (7) forming the drive element that they counteract the action of the Compression springs (10) can be moved up to the inner surfaces (11) of the links. 2. Continuously variable transmission according to claim and dependent claim 1, characterized in that the grooves (6, 61) of the Rota tion body (1, 2) run slightly obliquely to the axes of rotation. 3. Continuously variable transmission according to claim and dependent claims 1 and 2, characterized in that several grippers (9) are provided independently vonein other in each joint member.