SU1176121A1 - Gearing with solids of revolution - Google Patents

Abstract

TRANSMISSION WITH ROLLING BODIES, comprising a housing, a driving link with radially arranged grooves in which the rolling bodies are located, and a driven link in the form of a disk with radial grooves, characterized in that, in order to increase reliability, the transmission is provided with an emphasis executed in the form of a ball installed in the housing, interacting with the driven link and lying on the same axis with the rolling elements, and the grooves are made on the end surface of the disk. (L to O) td

Description

1 The invention relates to mechanical engineering and can be used in devices for transmitting rotational motion, such as gearboxes. The purpose of the invention is to increase the reliability of the transmission by reducing the wear and tear of the parts involved in the transmission of motion from the driving link to the follower by using the movement of rolling bodies to transmit movement. FIG. 1 shows a schematic representation of a gear engaging with internal gearing (longitudinal section) j in FIG. 2, section A-A in FIG. 1; FIG. 3 shows a transmission made with external engagement (longitudinal section) in FIG. 4, view B in FIG. 3. Transmission with rolling bodies with internal gearing contains the drive disk 1 fixed on the shaft 2 mounted in the bearing 3, the Drive 1 slide its flat surface along the flat surface of the driven disk 4 fixed on the shaft 5 mounted in the bearing 6, the disks 1 and 4 are interconnected by balls 7, each of which is in the radial grooves 8 of the drive disk 1, the balls 7 move in a sliding fit with rolling in the radial grooves 9 of the driven disk 4. In addition, on the driven disk 4 There is a flat notch 10, over the surface of which the balls 7 also move along a sliding rolling fit. The grooves 8 and 9 are made uniformly around the circumference, respectively, of the drive disk 1 and the slave disk 4. The number of grooves 8 and 9, their sizes and the relative position of the disks are chosen depending on the required gear ratio, the transmitted forces and the required dimensions of the mechanism, if there are restrictions on the sizes mechanism. 21 To reduce the deformation of the driven disk 4 and the load on the bearing 5, a stop 11 is installed in the gear housing (not shown), in which the ball 12 is placed, and an annular groove 13 is made on the interacting surface of the driven disk 4, the ball 12 moves along a sliding fit with rolling in the recess of the anvil 11 and the annular groove 13 of the driven disk 4. Transmission with rolling bodies when executing with external gearing includes a driving disk 1 fixed on the shaft 2 mounted in bearings 3, the driving disk 1 slides flat with its own NOSTA on flat poverhnosi drive plate 4 is rigidly fixed to the shaft 5 installed in podshipni-. 6, Disks 1 and 4 are interconnected by balls 7, each of which is in the radial grooves 8 of the drive disk 1, the Balls 7 move along a sliding fit with rolling in the radial grooves 9 of the driven disk 4, to hold the balls 7 in the grooves 8 from falling out, when the balls 7 do not interact with the grooves 9, a stop 10 is installed in the housing (not shown), with which the balls 7 move along a sliding fit with rolling. Transmission with rolling bodies works as follows. When the drive disk 1 rotates through the balls 7, the rotation is transmitted to the slave disk 4. The gear ratio with the rolling bodies is equal to the ratio of the number of grooves 9 of the slave disk 4 to the number of grooves 8 of the drive disk 1. Balls 7 enter and exit the grooves 9 of the slave link without strikes.

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Claims (1)

TRANSMISSION WITH RACING BODIES, comprising a housing, a driving link with radially located grooves, ¹ in which the rolling bodies are located, and a driven link in the form of a disk with radial grooves, characterized in that, in order to increase reliability, the transmission is equipped with a stop made in the form a ball mounted in the housing, interacting with the driven link and lying on the same axis as the rolling bodies, and the grooves are made on the end surface of the disk. > 1 1176121