SU870786A1 - Coupling - Google Patents

Description

- The invention relates to the field of small-scale construction, in particular to devices for transmitting rotation. Known coupling containing two coupling halves with eccentric cylindrical bores and a connecting element installed in them, centered relative to coupling halves 1 A disadvantage of the known coupling is the inability to compensate for angular and radial displacements of the shafts. The aim of the invention is the expansion of operational capabilities. To achieve this goal, the coupling, containing two coupling halves and a connecting element located between them, is equipped with elastic separators with balls of different diameters installed in them, the eccentric annular grooves are formed on the cylindrical surfaces of the coupling halves, the connecting element is made in the form of an eccentric diametrically opposed boring and its inner surface, with separators with balls installed in the annular grooves between the yoke and each coupling half. Figure 1 shows the proposed coupling, a longitudinal section; in Fig.2 a section along aa in Fig.1; on fig.Z coupling when non-parallel displacement of the shafts; in fig. 4 - coupling with parallel and nominal shaft displacement; figure 5 is a simplified version of the coupling; figure 6 is a section along BB in figure 5. The coupling halves 1 and 2 are mounted on the ends of the shafts 3 and 4 and are rigidly fixed to them with the help of keys 5 and 6. On the facing ends of each hub of the hubs of each of the coupling halves 1 and 2 on the outer cylindrical surface 7 are eccentric to the axis of rotation with a radius R displaced to the eccentricity e relative to the surface 7 with radius R, an eccentric annular groove 8 is made. On the surface 7 an elastic separator 9 is placed, made, for example, of rubber, and in the annular groove 8, the centering elements are mounted in the form e balls 10 of different diameters inserted into an elastic separator 9. Couplings 1 and 2 through balls 10 are interconnected by a connecting element in the form of a self-adjusting cage 11, with two sides in diametrically opposite directions at the same distance

at. eccentric cylindrical bores 12, extending balls, and annular grooves C can also be made directly at the ends of the shafts 13 and 14 (see Fig. 5 and b), in which, respectively, an elastic separator 9 and balls 10 are installed. .

The self-aligning sleeve 11, through the balls 10, connects the ends of the shafts 13 and 14 to each other. Such a connection also allows coupling of parallel shafts and non-parallel offset shafts.

The radius of the circumferential groove Rj, the radius of the eccentric cylindrical bore KLI, and the magnitude of the eccentricity are determined by the formulas:

R R, Rj R + e and e (0.25 + 0.30) D where R is the surface radius 7

D is the diameter of the largest ball.

The coupling works as follows.

During rotation of the half of the coupling half 1 or 2 in either direction, due to the presence of offset ring grooves 8 and eccentric cylindrical bores 12 displaced by the size e, balls 10 wedge a self-adjusting sleeve 11 connecting the balls 10 of coupling half 1 and 2, and thus the transmission of torque from one shaft to another is carried out. In operation, the self-aligning holder 11 makes complex movements, all the while self-aligning with the sharks 10.

This coupling provides compensation for parallel and non-parallel shaft displacements.

Claims (1)

1. USSR author's certificate 509736, cl. F 16 D 3/50, 1974. ltPl / l.f fff f ff I ///