RU2556412C1 - Hyperboloidal drive roller - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: hyperboloidal drive roller contains side disks (3, 4) connected by resilient work elements, and installed on drive shaft (1). Ends part of the drive shaft is made hollow with splines on the internal part, in which by one end the torsion shaft (2) is inserted, it carries at the opposite end one of disks (3). Second disk (4) has sliding over the spline cone fit for interfacing with the spline cone (5) on the peripheral part of the drive shaft.

EFFECT: higher drive efficiency.

1 dwg

Description

The invention relates to resiliently roller drives with reverse cylindrical or close to cylindrical products.

Known hyperboloid roller drive / see, for example, ed. testimonial. No. 553 102 (class B27V 25/00) dated 04/09/1975 and Pat. No. 2 120 851 (class B27B 25/02, B65G 39/00) dated July 31, 1996 / containing the roller side discs connected by elastically working elements, mounted on the drive shaft.

The prototype roller device contains a drive shaft on which one of the disks is rigidly fixed and a second disk is seated at some distance from it with the possibility of axial movement along and relative rotation around the shaft. To tension the elastic-flexible working elements (for example, ropes), a cylindrical spring is installed between the disks on the shaft.

The effectiveness of the known rollers in drives with reverse is very low.

To increase the efficiency of an elastic-flexible drive with a reverse in a hyperboloid drive roller containing lateral roller disks connected by elastic-working working elements mounted on the drive shaft, the end part of the drive shaft is hollow with splines on the inner part, into which the torsion shaft bearing on the opposite side enters at one end the end end of one of the disks, and the second disk has a landing on the spline cone for mating with the spline cone on the peripheral part of the drive shaft.

The technical solution proposed by the invention is simplified by the drawing.

The hyperboloid drive roller according to the invention comprises lateral roller disks connected by resilient working elements (not shown) mounted on the drive shaft 1. The end part of the drive shaft 1 is made hollow with slots on the inside, into which the torsion shaft 2 enters at one end, bearing one of the disks (3) at the opposite end, and the second disk 4 has a landing on the spline cone for mating with the spline cone 5 on the peripheral part of the drive shaft 1.

Unlike the prototype roller, where a relatively movable disk is not fixed with respect to the disk fixed, in the proposed technical solution, the fixing of the disk 4, rotated by a technologically justified angle α with respect to the disk 3, is carried out: a) displacement along the axial disk 4 relative to the disk 3 (with stretching of elastic-flexible working elements); b) rotation around the axial disk 4 with respect to the disk 3; c) fixing the disk 4 on the spline cone 5. The result of the sequential execution of steps a), b) and c) will be a hyperboloid drive roller with a technologically justified generatrix of stretched elastically flexible working elements. Moreover, the proposed roller design allows the angle α of the relative rotation of the disks (4 and 3) to change to (-α), expanding the functionality (including reverse) of the drive rollers. To compensate for the difference in diameters and dynamic runout of products of cylindrical or close to cylindrical shapes in the proposed design of the drive roller is designed (except for elastic-flexible working elements) torsion shaft 2.

Assembly with a sliding on a spline cone landing disk 4 for pairing with a spline cone 5 can also be performed, for example, using the technical solution according to ed. testimonial. No. 1463981 (class F16D 1/10) dated 08/11/1987.

Thus, according to the applicant, the proposed technical solution is new, has an inventive step and is industrially applicable.

Claims (1)

A hyperboloid drive roller comprising lateral roller disks connected by elastically working elements mounted on the drive shaft, characterized in that the end part of the drive shaft is hollow with splines on the inside, into which the torsion shaft enters at one end, which carries one of the ends from the end disks, and the second disk has a landing on the spline cone to mate with the spline cone on the peripheral part of the drive shaft.