DE1221858B - Torsionally flexible coupling - Google Patents

Description

Torsionally flexible coupling The invention relates to a flexible shaft coupling, in particular for absorbing periodically fluctuating torques, consisting of a barrel-shaped, toroidal or frustoconical connecting the shaft ends in alignment Hollow body made of elastic material, the cover and / or base of which is flange-like formed on at least one shaft end in guides to be axially displaceable to a limited extent is attached.

Torsionally flexible couplings in the form of rubber elements and in the form of clutch housings with inserted elastic elements are known. One elastic shaft coupling with a toroidal rubber-elastic intermediate piece shows a fixed shaft end and a non-rotating shaft end but axially movable flange mounting. This execution of the attachment of the intermediate piece serves to compensate for the axial movement of the elastic due to the centrifugal force Body. The axial movement for the torsion spring is not exploited here before.

It is also known an elastic shaft coupling in which an axial Movement of the flange of the rubber-elastic body with respect to one end of the shaft occurs in which a releasable non-positive connection between the shaft and the flange. The shift is only used for engaging and disengaging Dependence on the direction of rotation of the shafts. An exploitation of the axial deflection for elastic torque transmission is not given.

To improve the spring properties of these known couplings the task is set, in addition to the known flexibility, in particular the axial Use deflection for torsion suspension. To solve this problem, the rubber-elastic Coupling element designed such that the flange or the flanges of the rubber-elastic Hollow body has a nut thread for guidance or have that with a bolt thread mounted on the shaft ends cooperates.

With such a design of the shaft coupling is compared to the known couplings achieved in an advantageous manner that when pressure is applied in the axial direction under the effect of the torque in connection with the possibility of bulging a large oscillation amplitude results, which leads to a dampening of large oscillations necessary spring softness leads. The clutch remains without further ado other advantageous properties, in particular the angular, transverse and longitudinal flexibility and the compensation of the axial offset obtained.

The conversion of the torque shocks into axial shocks on the rubber-elastic ones Suspension body can be done by z. B. a helical one Groove is worked out in the corresponding cams or stones on the inner diameter engage at the ends of the hollow rubber body.

To convert the torque into an axial force, a elongated coil springs are connected upstream with so many turns that also a relative rotation of 100 °, for example, is achieved. The end of the coil spring Is attached to the end of the shaft and lies within the elastic hollow body. The part of the coil spring around the shaft is shortened as a result of the rotation, the other end is connected to the elastic hollow body and exerts an axial direction Force on this.

In order to achieve a soft torsional suspension, an elongated one can also be used tubular rubber sleeve are arranged over the shaft end that through a twisting of the inner spring creates a tensile force which manifests itself as a compressive force affects the coupling body. However, such a spring could only have low torsional forces because of their specifically small cross-section and only comes for small ones Services in question. Since the inner spring protrudes into the coupling body, will an undesirable overall length avoided.

With the simple arrangement by means of screw threads, axial forces act on the drive, especially if the elastic hollow coupling body is specified on the drive side, but must be kept within permissible limits and can be picked up by the camps. When arranging means for Conversion of the circumferential forces into an axial suspension on both clutch shafts these reaction forces are largely eliminated, since then the periodic torque fluctuations in a corresponding periodic compression of the elastic hollow body in the axial direction Direction are converted, with these axial spring oscillations in turn into periodic Diameter enlargements be converted into planes transverse to the axial extent. These exterior surfaces can additionally be equipped with increased frictional effect.

Exemplary embodiments of the invention are shown schematically in the drawings shown. In it, F i g. 1 acting on the coupling in a loom vibrating masses, F i g. 2 the coupling between a drive shaft and a Output shaft, F i g. 3 the application of an end of the coupling hollow body by means a screw thread, FIG. 4 a coupling hollow body, one end of which with connected to a long tubular, shortening rubber spring, FIG. 5 shows a coupling of two shafts with an elastic hollow coupling body with a thread at the shaft ends, the coupling hollow body with a closed solid or resilient housing, F i g. 6 a rubber elastic coupling hollow body, which is fixed on one end of the shaft; while through the other end of the shaft axial loading takes place through a thread, FIG. 7 a coupling whose Shaft ends are each equipped with a coupling hollow body, which is in opposite Direction to the shaft end is applied to each one encompassing both shaft ends To couple the housing with the enlarged diameter, -F i g. 8 - a clutch with a frustoconical elastic hollow coupling body.

In F i g.1 the drive arrangement of a mechanical Loom shown, in which the drive torque of the motor and the rotating mass of the driven machine together with the elasticity of the coupling a torsionally vibratable form elastic system, which in the case of resonance by the periodically recurring Torque can be excited to strong torsional vibrations. In this system is with 1 the swinging loom drawer, with 2 the rotating loom weights, with 3 the spring clutch, with 4 the motor rotor, with 5 the shaft of the machine, with 6 the Shaft of the motor. The two coupling halves that can be rotated against each other are with delivery of the equal load z. B. rotatable by a few hundred degrees. The torsional vibration angle; which then occur on the coupling half on the machine side are of the order of magnitude of a few degrees, d. that is, the spring torque fluctuates only very slightly compared to a Oscillation moment of several 100 a / o of the uniform load, which is in a rigid coupling would occur.

In Fig. 2, 5 is the motor-side shaft end, 6 is the output-side Shaft end. 3, 3 'is the elastic hollow coupling body, which with its ends 7 and 7 'in the flanges 8 and 8' and by vulcanization, toothing or through Clamping is used. Corresponding coarse threads are on the shaft ends 5 and 6 -9 or 9 'attached, with the mating thread 10 or 10' in the flanges 8 and .8 'correspond. The threads are defined by stops 11 and 12 or 11 ' and 12 'limited.

In Fig. 3 is the loading of the elastic suspension hollow body made through the flange 8 by means of the sliding block 13 via the threaded groove 10 ". If in the coupling according to the examples according to FIG. 2 and 3 between the two Shafts transmit torque, the shaft tries to use the thread or sliding block to twist the hollow rubber body. The hollow rubber body with its other end is either firmly connected to the output or with a thread, a cam or sliding block also engages in a thread groove, the rotation continues to oppose a resistance. As a result, try the screw thread or threads the wave to move the stone or stones in the axial direction against the Spring force of the rubber spring, which provides a relatively softer spring against compression has in the axial direction than against rotation. Here, the axial suspension are limited by stops within the axial spring travel of the rubber hollow spring.

You can use a sliding block in place of the helical groove other means are also used, the rotation of the shaft relative to the coupling body to convert into an axial loading of the elastic hollow body. So can For example, tappets or rocker arms are arranged on the shaft, which has an axial Bring about the application of the spring. Another remedy is one with the wave and a cam track connected to the elastic coupling body, which is interposed a rolling ball act on each other.

In Fig. 4, 14 is a tubular rubber spring that operates on twisting is claimed. When the motor is put into operation, the shaft tries to use the screw thread or in the case of FIG. 4 by means of the shortening hose 14 to compress the elastic hollow body 3 axially.

In the F i g. 5 to 7 denotes 15 that encompasses the shaft ends Housing, 3 'the enlarged diameter of the elastic hollow suspension body, and 16 are flyweights which are arranged symmetrically on the inner circumference and which Support diameter enlargement of the hollow body 3, 3 '. With 17 and 17 'are denotes axial thrust bearings which are supported once against the stops 11 'and 12' and on the other hand against a flange ring of the housing 15.

With the couplings according to FIGS. 5 through 7 becomes a torque transmission made over the housing. Against the inner wall of this housing lies the Outer surface of the coupling hollow body when the diameter increases as a result of the Coupling hollow body due to the axial Beaufschlagüng through the thread on the Shaft ends. At the same time it can be seen from these examples that inside of the elastic coupling hollow body flyweights are attached to the circumference, which strive for an increase in diameter under the influence of centrifugal force and hereby a coupling of the outer diameter with the walls of the surrounding housing influence. The flyweights can also stabilize the diameter plane compared to the shaft ends to be coupled.

Claims (7)

Claims: 1. Elastic shaft coupling, in particular for receiving periodically fluctuating torques, consisting of one the shaft ends in a barrel-shaped, toroidal or frustoconical hollow body connecting an alignment rubber-elastic material, the lid and / or bottom of which is designed like a flange fixed axially displaceably to a limited extent on at least one shaft end in guides is that the flange or the flanges (8, 8 ') of the rubber-elastic hollow body (3) a nut thread (10, 10') for guidance has or have that with a bolt thread attached to the shaft ends (9, 9 ') cooperates. 2. Elastic shaft coupling according to claim 1, characterized in that the guide thread of the shaft ends is designed as a guide groove (10 ") in which the nut thread of the flanges (8) of the rubber-elastic hollow body replacing cams (13) slide. 3. Elastic shaft coupling according to the claims 1 and 2, characterized in that the counter guide in the inner circumference of the bore is carried out directly in the material of the rubber-elastic hollow body (3). 4th Elastic shaft coupling according to Claims 1 to 3, characterized in that the rubber-elastic hollow body (3) has a helical spring coaxially at least at one end comprises, with one end at the flange end of the hollow body and with the other end is attached to the shaft end (5, 6) protruding into the hollow body, the axial resilience of the hollow body with a bulging of its central part due to the shortening of the helical spring under the effect of the torque he follows. 5. Elastic shaft coupling according to claims 1 to 3, characterized in that that the rubber-elastic hollow body (3) at least at one end coaxially a tubular (14) rubber spring included with. one end at the flange end of the hollow body (3) and with the other end on the shaft end (s) protruding into the hollow body (5, 6) is attached, the axial deflection of the hollow body under bulging its middle part (3 ') by the occurring under the effect of the torque Shortening of the tubular rubber spring takes place. 6. Elastic shaft coupling according to claims 1 to 5, characterized in that at one end of the shaft a coaxially surrounding the rubber-elastic hollow body (15) is attached, the inner surface of which with the increasing diameter (3 ') of the hollow body due to the axial suspension additional coupling forms. 7. Flexible shaft coupling according to claims 1 and 6, characterized in that the rubber-elastic Housing surrounding hollow body rotatable on both shaft ends and each on one Shaft end against axial displacement in the direction of the other to be coupled Shaft end through bearings (17,17 ') is set in a known manner and through the axial suspension of enlarged hollow bodies (3 ') on the inner surfaces of the enveloping Housing (15) rests, the reaction forces from the axial suspension of the driving and driven shaft kept away and received by the housing will. B. Elastic shaft coupling according to claims 1 and 7, characterized in that that a rubber-elastic hollow body (3) is arranged at each shaft end (5, 6) the ends of which are closest to the shaft ends with an increase in diameter be sprung, the two hollow bodies through an enveloping housing (15), which is rotatably mounted on the shafts, are bordered. 9. Flexible shaft coupling according to claims 1 to 8, characterized in that on the inner circumference, on the outer Circumference and / or flyweights on the wall of the rubber-elastic hollow body (16) are attached, which increases the diameter and the axial deflection of the Affect hollow body. 10. Elastic shaft coupling according to claims 1 to 9, characterized in that in a known manner on the outer circumference of the rubber-elastic Hollow body surfaces with an increased coefficient of friction are attached. Considered Publications: German Patent Nos. 534 064, 725 651, 846 041, 949 914; Austrian Patent No. 102 707; French Patent No. 1100 460; U.S. Patent No. 1501187; "Werkstatt und Betrieb" magazine, 83rd volume, 1950, issue 12, p. 511.