RU2008136289A - METHOD FOR CONTINUOUS CHANGE OF TRANSFER OF MOTION AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Abstract

1. A method of steplessly changing the transmission of motion, in which the uniform rotational movement of the drive shaft is transmitted to the driven shaft through a conversion mechanism, characterized in that in the conversion mechanism the uniform rotation of the drive shaft is converted into two separate, but equal in modulus, continuous movements containing sections with accelerated and slowed movements, then continuous movements are added, while the resulting result will be a uniform rotational movement transmitted to the driven shaft, and the gear ratio between the drive and driven shafts is controlled by the phase shift of two separate continuous movements. ! 2. A device for continuously variable transmission of motion, including a housing, a drive shaft with a drive gear, meshed with intermediate gears arranged around the circumference, a carrier, a conversion mechanism, a driven shaft, a gear ratio adjusting mechanism, characterized in that the intermediate gears transmit rotation through the conversion mechanisms and the differentials placed between them, the internal gear, connected to the housing and the driven shaft. ! 3. A device for continuously variable transmission of motion according to claim 2, characterized in that the converting mechanism consists of two clips rigidly interconnected, in which holes are made around the circumference, in which eccentric pairs consisting of driving and driven are rotated around their axes elements, and on the surface of each driven element a curved corrective groove and a radial groove are made along which the alternating

Claims (4)

1. A method of steplessly changing the transmission of motion, in which the uniform rotational movement of the drive shaft is transmitted to the driven shaft through a conversion mechanism, characterized in that in the conversion mechanism the uniform rotation of the drive shaft is converted into two separate, but equal in modulus, continuous movements containing sections with accelerated and slowed movements, then continuous movements are added, while the resulting result will be a uniform rotational movement transmitted to the driven shaft, and the gear ratio between the drive and driven shafts is controlled by the phase shift of two separate continuous movements. 2. A device for continuously variable transmission of motion, including a housing, a drive shaft with a drive gear, meshed with intermediate gears arranged around the circumference, a carrier, a conversion mechanism, a driven shaft, a gear ratio adjusting mechanism, characterized in that the intermediate gears transmit rotation through the conversion mechanisms and the differentials placed between them, the internal gear, connected to the housing and the driven shaft. 3. A device for continuously variable transmission of motion according to claim 2, characterized in that the converting mechanism consists of two clips rigidly interconnected, in which holes are made around the circumference, in which eccentric pairs consisting of driving and driven are rotated around their axes elements, and on the surface of each driven element a curved corrective groove and a radial groove are made, along which the main carrier installed in it is mixed, and equipped with a bevel gear, and on the turn For each driving element, a diametral groove is made in which the slider with the correcting carrier is movably mounted, while the correcting carrier of the slider of the leading element enters the curved correcting groove of the driven element, and the main carrier of the driven element enters the hole of the slider of the leading element, and the axis of rotation of the driven and leading elements are offset relative to each other, forming an eccentricity. 4. A device for continuously variable transmission of motion according to claim 2, characterized in that the mechanism for regulating the gear ratio consists of two shafts, at the ends of which are made screw cuts and straight splines entering the cavity of the hollow sleeve, in which on one side there are screw cutting, and on the other hand, straight slots are made, and the gear ratio between the drive and driven shafts is adjusted by rotating the eccentric pairs of one converting mechanism relative to the eccentric pairs of the other reobrazuyuschego mechanism wherein eccentric rotation pairs is performed by moving the hollow sleeve along the shaft with a screw thread.