DE1264169B - Cable drum support and drive construction - Google Patents

Description

Cable drum support and drive structure For connecting a cable drum with the associated gear shaft, which drives both the drum and its Mediated storage at one end, one has hitherto generally toothed clutches used. However, these are disadvantageous with regard to the inevitable inaccuracies, the assembly of the engines and elastic deformation, in particular under the action of the payload. Tooth couplings with straight Tooth flanks, similar to multi-slot gears, are only able to be axial Record shifts; however, they do not allow the drum to deviate their coaxial position to the shaft, d. H. an angle formation between the Axes of both parts. To make this possible, you have the tooth flanks of the tooth clutches Conveniently designed so that the torques are transmitted via elliptical contact surfaces that are within a small permissible wobble range on the tooth flanks wander back and forth. Even if not with a correct execution of the crowning fear of destruction of the teeth by one-sided wear on the flank ends is, however, when a diffraction angle occurs between the axes, the The drum and the shaft no longer transmit the torque from all of the teeth. this has often also led to the breakage of such couplings.

So that a gear coupling that is used to transmit the torque from the Drive shaft is used on the cable drum, not also from the weight of the drum shell and the load hanging on the drum is loaded, one has - according to the patent 22 559 of the Office for Inventions and Patents in the Soviet Zone of Occupation Germany - the drum shell by means of a support ring sitting on the drive shaft supported with a spherical peripheral surface, which flexes between the axes of rotation the drum and the drive shaft. But there is still the danger that the teeth of the tooth coupling are not all involved in the transmission of the torques are. To avoid this as much as possible, the tooth flanks must be machined done very precisely. However, this requires a very expensive production.

To gear couplings for the transmission of supporting forces and drive torques To avoid rope drums, a built-in joint has been developed that is in the "Industrie-Anzeiger" magazine, 1961, on pages 21 ff. This Installation joint consists of a clutch disc, which is semicircular on its circumference Recesses is provided, and a housing that is in a circular opening Has recesses in the same shape. Hardened, barrel-shaped steel body with a running fit into the out of the semicircular recesses holes formed are used. They transmit the torques between the Drive shaft and the cable drum form-fit and also take the from the Drum weight resulting from radial forces. Thanks to the barrel shape there is an inflection possible between the axes of rotation of the drive shaft and the cable drum. But to a certain extent also this type of construction because of the precise fit of the steel body in the recesses an expensive manufacturing. Also, the steel bodies and their bearing surfaces must be good lubricated and protected against dust. It is therefore on the inside and outside of the installation joint a double lip seal is arranged, which is an additional Costs incurred.

In contrast, the invention is based on the task of taking into account the unavoidable deviations of the drum axis of rotation from the axis of rotation of the drive shaft with particularly simple and reliable means with the lowest production costs to achieve.

The invention is based on a cable drum support and drive structure, in which the drum shell is seated at one end of one on the drive shaft Support disk is carried with a spherical peripheral surface and with the drive shaft through the intermediation of form-fitting interlocking torque transmission elements is connected, which is the flexions made possible by the convex support surface adapt between the axes of rotation of the drum and the drive shaft capital; and the invention is primarily that the support disc with a Diameter of the beefy peripheral surface, which is approximately equal to the inner diameter of the Drum shell is used as a drum front wall and that for torque transmission between the end wall and the jacket a driver in the end wall, as in itself known, is rotatably mounted about a radial axis and in a recess of the jacket engages with an axial movement possibility.

A cable drum support and drive structure according to the invention is characterized by relatively low manufacturing costs and robustness so that no major maintenance costs are to be expected. In addition, the Construction according to the invention has the advantage that you can monitor during operation whether there is an angular deviation of the axes of rotation as a result of inertia forces of the drum and the drive shaft from each other. It's easy to do at the respective position of the driver within the recess in the drum shell recognize.

The driver expediently lies with plane-parallel sliding surfaces on surfaces of the recess and can be opposite to the disk by a radial Rotate axis standing to the shaft. The driver consists, for example, of one in the disc rotatably mounted bolt, the opposite of the disc protruding Part has the sliding surfaces, or from a fixed pin with a rotatable on this mounted sliding block, which is in the recess with a game in the axial direction the drum engages.

The drawing shows an exemplary embodiment of the subject matter of the invention shown, namely shows F i g. 1 parts of a rope drum, an associated one Gearbox output shaft and the associated housing in an axial section and F i g. 2 is a view of a detail in the direction of arrow II.

The transmission output shaft 1 is through with the end shown a bearing 2 is supported in a wall 3 of the housing. The shaft 1 protrudes with a Pin 4 beyond the wall 3. On this pin is by means of a hub and one Wedge a disk 6 attached. This has a beefy peripheral surface 7, the one forms the middle spherical zone, the center of which 8 with the intersection of the perpendicular The center plane of the disk 6 coincides with the center line 9 of the shaft 1.

The jacket 10 of the cable drum is pushed onto the brawny peripheral surface 7 of the disk 6 in the axial direction. An annular flange 11 is welded onto this jacket in such a way that its central plane coincides with the central plane of the disk 6 when the axes of the drum 10 and the shaft 1 coincide.

The drum shell 10 has a recess 12 in the direction of the drum axis guide surfaces running parallel to one another. The recess 12 is set in the ring flange 11 continues. It is enclosed on both sides by blocks 13, which form the guide surfaces form for the driver.

A right-edged sliding block 14 engages in the recess 12, which sits on a bolt 15 which is in the disc 6 by a radial to the shaft 1 horizontal axis is rotatably mounted. Slipping out of the bolt 15 from his Bearing shell 16 in the disk 6 is prevented by an annular groove 17 the end of a screw 18 screwed into the disk 6 engages.

The sliding block 14 rests on the guide surfaces of the blocks 13 with practically no play in the direction tangential to the drum 10. But he has within the recess 12 movement play in the axial direction to the drum shell. Accordingly, on the one hand, the torque from the shaft 1 is properly transmitted to the drum mantle 110 by the sliding block 14; On the other hand, because of the play mentioned and because of the rotatability of the bolt 15 in cooperation with the crowning of the peripheral surface 7 of the disk 6, the sliding block 14 allows the drum 10 to deviate from its position coaxially with the shaft 1 within the above axial play.

The invention also has the advantage that the engine can be easily assembled and an exact alignment of the drum with respect to the drive shaft is possible. Because after the drum shell 10 has been placed on the disc 6 , the sliding block 14 in the recess 12 performs an oscillating movement until the drum is precisely adjusted, which is done by laterally relocating and lining the drum support bracket opposite the shaft 1. Elastic deformations that occur during operation and that originate from the payload, as well as permanent deformations caused by any overloads, e.g. B. collisions caused are controlled by the corresponding oscillating movement of the sliding block and eliminated in the latter case.

Instead of one driver, the two can also be diametrically opposite one another be stored in the disc sitting on the drum axis.

Furthermore, when torque is transmitted, it is only in one direction possible that the driver or the driver by a spring element in tangential Direction against an abutment surface of the recess or a reinforcement piece is pressed.

Under certain circumstances, the drum shaft is used to transmit the torque onto the drum of the carrier or the carriers and / or those who work with them Parts of the drum shell with elastic bodies, e.g. B, rubber strip, provided, to achieve a gentle torque transmission.

A known angularly movable shaft coupling has a short shaft section on, which at both ends with spherical thickenings in holes of the is performed with each other to coupled shafts. At both ends of the short section of the shaft are in cross bores, the center lines of which are parallel to each other and the centers of curvature cut the spherical thickenings, hinge pins hung up. their ends in Engage slots of the shafts. Two sliding blocks are used for torque transmission, each sitting on a bolt on opposite sides of the shafts and with plane-parallel sliding surfaces on the surfaces extending in the longitudinal direction of the slots.

With this shaft coupling, the spherical bulges transmit of the short shaft section no lateral forces. They therefore do not fulfill the function of supporting a drum shell, which in the subject of the invention of the beefy Circumferential surface of a drum front wall. The convex peripheral surface Although the drum end wall according to the invention has in connection with the mentioned Arrangement of the driver also has the task of flexing between the axes of rotation to enable the drum and the drive shaft, while avoiding the Initially mentioned difficulties occurring when using tooth clutches. However, in the cable drum support and drive structure according to the invention with the simplest means also avoided the disadvantages of the known shaft coupling are associated with the appearance of diffraction angles between the two waves. There the diffraction angles between the two waves necessarily lead to that twice the effort of a double joint. Because when the shaft coupling is the axis of rotation one shaft bent at an angle with respect to that of the other shaft and If a torque is transmitted from one shaft to the other, the two migrate Short pieces of shaft connecting shafts to one another during each revolution the angle of deflection to and fro, because the sliding blocks are practical do not move along the slots, but according to the principle of least resistance Perform rocking movements. It is that between them and those concerned Contact surfaces of the slots acting frictional force very large, because of the small Radius of the shafts the circumferential force corresponding to the torque to be transmitted is substantial. If you wanted to prevent the short section of the shaft from moving back and forth, so with each rotation there would be great forces in the longitudinal direction on the coupled Waves act that would have to be absorbed at the shaft bearings. That would be B. then the case when instead of two joints between the short section of the shaft and the Both shafts only have a corresponding joint between a total of only two shafts and both shafts would be prevented from moving in the axial direction.

In contrast to this, in the cable drum according to the invention in the case of a flexion of the drum axis of rotation with respect to the drive shaft axis, the Drum bearings not stressed by longitudinal forces. That is based on the fact that the circumferential force that is transmitted from the driver to the drum shell, too with high torque because of the large drum shell diameter that is attached to the front wall is fully utilized, is relatively small and accordingly only one accordingly low frictional force occurs in the longitudinal direction of the drum. On the other hand, one works Significantly greater frictional force in the respective apex of the spherical circumferential surface between this and the inner surface of the shell, because of the weight of the drum and, if necessary, the load hanging on the drum proportionally in each case be transferred at the apex of the circumferential surface to the end wall in question. These Frictional force by far outweighs that, as already mentioned, only small, from the driver in Frictional force transmitted to the drum in the axial direction. This beneficial appearance is practically independent of the respective load on the cable drum. Because with increasing load, the torque to be transmitted and thus the frictional force acting between the driver and the sliding surface of the recess larger, but increases to the same extent that at the apex of the circumferential surface from the Effective frictional force load.

This advantage is achieved with only one joint, although the design according to the invention the dual function of supporting and driving a Cable drum is fulfilled, whereas with the known angularly movable shaft coupling the only function of the shaft drive, as mentioned, makes two joints necessary.

In the case of a cable drum according to the invention, the driver consists for example from a bolt rotatably mounted in the relevant drum end wall, whose opposite the end wall protruding part has the sliding surfaces, or from one fixed pin with a sliding block rotatably mounted on this, which is in the Recess engages with a game in the axial direction of the drum.

Claims (3)

Claims: 1. Cable drum support and drive structure, at which the drum shell at one end of a seated on the drive shaft Support disk with a spherical peripheral surface is carried and with the drive shaft with the help of interlocking interlocking torque transmission links is connected, which is the flexions made possible by the convex support surface able to adapt between the axes of rotation of the drum and the drive shaft, thereby characterized in that the support disc (6) has a diameter of the spherical peripheral surface (7), which is approximately equal to the inner diameter of the drum shell (10), as the drum front wall serves and that for torque transmission between the end wall (6) and the jacket (10) a driver (14) in the end wall, as is known per se, about a radial axis is rotatably mounted and in a recess (12) of the shell with an axial movement possibility intervenes. 2. Cable drum according to claim 1, characterized in that the recess (12) of the drum shell (10) is provided with reinforcing pieces (13), which abutment surfaces for the sliding surfaces of the driver (14). 3. Cable drum according to claim 1 or 2, characterized in that when torque is transmitted only in one direction, the driver is pressed by a spring element in the tangential direction against only one abutment surface of the recess or a reinforcing piece. Documents considered: German Patent No. 1106124; Patent Specification No. 22 559 of the Office for Invention and Patents in the Soviet Zone of Occupation in Germany; French Patent No. 569,362; Industrie-Anzeiger Essen, born in 1961, August 15, pp. 1229 to 1231.