DE2730408A1 - Segmented roller bearing cage return mechanism - has flexible puller anchored to races passing round cage guide in swashplate rotary machine - Google Patents

Abstract

The return mechanism is for the cage of a segment-type roller bearing, particularly as used for the piston guide cradle of a swashplate-type pump or motor. The return member, connected to inner and outer race and cage, is a flexible puller (11, 11a). This is anchored to the inner (6) and outer (2) races, and passed round a guide (13) attached to the cage (8). The puller can be wound round a body coaxial to one of the rollers, running onto the body tangentally at the side towards one of the races to which it is anchored. There can be two flexible pullers working with the cage, and symmetrical in relation to each other when the inner race is in the central position.

Description

Return device door the cage of a segment roller bearing.

The invention relates to a return device for the cage of a segment roller bearing 1, in particular for the storage of the piston guide surface supporting cradle of a swash plate axial piston machine. The cage of one of these The segment roller bearing does not lie exactly halfway across the moving bearing part the resting bearing part back because the circumference is larger on the outer bearing part than on the inner bearing part. The way of the cage must be limited so that the Rolling bodies do not move out of the area between the two to be supported against one another Can remove parts. The path of the cage should preferably correspond to the rolling movement which correspond to from rolling elements. The emigration of this location can, for example, thereby arise that always the relative movement of the two bearing parts against each other occurs under force in one direction, but in the opposite direction unencumbered.

This makes it possible that the cage with the rolling bearings in one Direction with respect to the bearing parts shifts with the result that part of the rolling elements no longer to be carried Koninit In this position, however, is the load-bearing capacity of the bearing reduced. In order to prevent such migration of the cage, there is a device known, in which on the cage as a return member a flexurally elastic itself approximately radially to the curvature of the arcuate cage extending rod radially displaceable and is pivotably articulated and the rod is fixed at one end at diner point of the outer bearing part of the roller bearing is pivotably mounted and with its other End pivotable on the inner bearing part and displaceable with respect to its longitudinal direction is hinged. (DT-OS 2 521 912) This rod, which is arranged radially in the starting position So takes over the function of a known halving gear, with an exact Halving only takes place if the distance between the attachment point on the cage and the The articulation point on the bearing part is the same size on both sides and a straight line Movement of both bearing parts takes place relative to one another. These conditions are at Segment rolling bearings not given, so that due to the geometric relationships of the Articulation point on the cage opposite the straight line connection point between the emigrates to both articulation points on the two bearing parts.

This emigration must then aurgenonlmen by elastic deformation will. Given the relatively short length of the rod, it is difficult to obtain a to find a permanent rod that absorbs the elastic deformations and still exerts sufficient back forces on the cage.

The invention is based on the object of the known ten facilities and to create a return facility in which the return element transmitting the return forces is sufficiently large.

In the case of a return device for the cage of a segmented roller bearing with one with the cage and with at least one of the two bearing parts in force Connected feedback member is the object of the invention solved that for the transmission of the restoring forces on the cage at least one flexible pulling element is provided which is connected to the cage or to one connected to it Organ, which may act as a direction changing organ, and one of the two bearing parts or both bearing parts is connected.

This invention can be realized by two mutually uniform in the Claims 1 and 2 specified solutions are carried out, both of which have the task solve using the same principle of solution, namely using a flexible pulling element. The solution is in accordance with various aspects Claim ll give priority. The solution according to claim 1 is based on the Pulley principle while the solution according to claim 2 is based on the belt rolling principle, its application in the machine tool industry is known to a specifically defined rolling of a roll body to force on a tread. In this context it should be mentioned that it for guiding the cage of a segment roller bearing is known on a cage arranged Bolt to store a gear, each with a toothing on the two bearing parts combs. One of the two sets of teeth can be mounted so as to be longitudinally displaceable and against Springs to be supported. Such a device with a toothing is very expensive and expensive (U.S. Patent 3,396,670). On the other hand, solutions are made possible according to the invention, by which a migration of the cage is hindered or prevented and a return the cage is secured Xd which are still cheap.

The flexible pulling element can be a nylon thread, a wire, for example Steel wire, or a strand of wires or a thin chain or ribbon made of plastic, metal or steel or a helical, springy one Steel wire link part as used for transmissions on toy steam engines will. Many other configurations for such pulling elements are also conceivable and applicable, provided that only the selected material meets the environmental conditions, for example in With regard to resistance to leaking lubricants and, if necessary, temperature influences.

The solution according to claim 3 ensures a reliable feedback effect in both directions. Claim 4 provides an appropriate solution to this.

The solution according to claim 6 is simple, especially in terms of production simple and ensures that the cage will migrate with sufficient reliability, does not, however, fully ensure that the cage is always exactly in the right position opposite has that bearing part with which the two tension members are not connected. To the on the other hand, the solution according to claim 5 always ensures a correct position of the cage.

The solution according to claim 7 simplifies the production and reduces the number of components required. The same gilat for the solutions according to each one of claims 8 or 9 or 10.

With regard to the geometry of the bearing and the non-rectilinear Movement of the articulation point on the movable bearing part in the case of claim 1 or with regard to the effective diameter, which may change during winding at the Winding body in the case of claim 2, it is useful if an elastic member is arranged in or on the flexible pulling element. To this Purpose, the entire tension member as such can be elastic, for example in the case that the pulling element is said transmission spiral or a nylon thread, or an elastic member, for example a spring, can be built into the pulling element be. Such a spring is useful between one end of the pulling element and the Attachment point of the tension member is arranged on the respective bearing part. Possibly. but the fastening point can also be arranged resiliently with respect to the bearing part be, for example, by one end of the pulling element on a sufficiently strong Spring, for example a leaf spring or a spiral spring is attached, the in turn is attached to the bearing part in question.

The application of the subject matter of the invention is particularly important on Rolling bearings between the cradle body carrying the swash plate and the outer one Housing of an axial piston machine in swash plate design that accommodates the bearing part.

The drawing shows two exemplary embodiments of the subject matter of the invention shown.

Figure 1 shows a Segrnentwälzlager between the housing and the cradle body a Schlagschei.ben axial piston machine with two pulling elements, each both are attached with their two ends to one bearing part each.

Figure 2 also shows a segment roller bearing between a cradle body and the housing of an axial piston machine with two pulling elements, each pulling element only attached with one end to a bearing part and with the other end on eeem Winding body is wound up.

FIG. 3 shows a section through FIG. 2 perpendicular to the plane of the drawing going through the axis 3 in FIG.

In the housing part 1, the outer segment bearing part 2 is shown in the drawing attached in a manner not shown. This outer bearing part 2 is in cross section perpendicular to the drawing plane a flat, U-shaped channel with side edges and a cylindrical inner part, the cylindrical surface of which is about the axis of curvature 3 is curved. The rolling elements 4 roll on this cylindrical part, on which on the other hand, the surface 5 of the cradle 6 runs off. The surface 7 of the cradle body 6 is the swash plate of an axial piston machine against the Piston start up directly or indirectly.

The cradle body 6 thus forms the inner bearing part of the segment roller bearing.

The rolling elements 4 are held in a cage 8, the individual Rolling bodies leads parallel to one another at a predetermined distance from one another.

A fastening point 9 is provided on the outer bearing part 2 and An attachment point 10 is provided on the cradle body 6.

The flexible band is at these two fastening points 9 and 10 11 attached, which is looped over a pulley 13, which in turn on the cage 8 is attached. Between the band 11 and the attachment point 10 is a pretensioned Spring 12 arranged.

Symmetrically to this, there is an in the position shown exactly symmetrically arranged return device provided, in which the elastic band 11a at the two attachment points 9a on the outer Bearing part 2 and 10a is attached to the cradle body 6. This tape is about one Deflection roller 13a, which is fastened to the cage 8, is looped. Between the end of the A spring 12a is arranged between the band 11a and the fastening point 10a.

The mode of operation is as follows: The cradle body 6 pivots around the Axis 3 clockwise so the rolling elements 4 roll between the outer bearing part 2 and the surface 5 of the cradle 6 and move along the outer Bearing part 2 upwards. The attachment point 10a also moves to the top right, so that the deflection roller 13a is also pulled upwards via the elastic band 11a. Since the tape 11a is attached to the points 9a and 10a, the roller 13a be pulled up by the elastic band lla when the attachment point 10a moves according to the top right in the drawing. By swiveling the cradle 6, the attachment point 10 moves to the top left at the same time, so that the attached to the spring 12 end of the elastic band 11 also to the left moved up. Since the roller 13a takes the cage 8 upwards, whoever holds the cage 8 also the pulley 13 is taken upwards. But it is also because of it enables the end of the band 11 connected to the spring 12 to be guided upward will. When the cradle 6 is pivoted counterclockwise analogously corresponding in the opposite direction. As a result, the The cage 8 is always in the desired position between the outer bearing part 2 and the cradle body 6 is held.

In the segment rolling bearing shown in Figure 2, the outer bearing part 22 fixed in the housing 21, with respect to the channel-shaped design the outer bearing part 22 corresponds to the outer bearing part 2 in FIG. The cradle body 6 with its surface 5 and the rolling elements 4 uud the cage 8 correspond exactly to the Parts with the same reference number in FIG. 1.

One of the rolling elements 4 is designated as 24 and is through the cage 8 protruding extension 25 provided with which the cylindrical Winding body 23 is connected coaxially to the rolling body 24 in such a way that the winding body 23 is rigidly connected to the rolling element 24. The outer diameter of the bobbin 23 corresponds at least approximately to the outer diameter of the roller body 24.

At a fastening point 29 of the housing 21 is a flexible tension member a wire 17 is fixed by means of a spring 18. The other end of the wire 17 is attached to the bobbin 23, but with so many turns of the wire on the Winding body 23 are wound up, that the rolling body 24 is up to the in operation of the segment roller bearing can move extreme position before the wire 17 entirely of the The winding body 23 is unwound.

In the same way, a second wire 19 is on the winding body 23 wound up and attached to this, its second end over a Spring 28 is attached to the attachment point 30 on the cradle body 6.

When it is ensured that the friction between the wire 17, 19 and the winding body 29 is large enough, a single wire can also be used, which is wound around the bobbin 23 correspondingly often. The friction is enough not off, this wire can also be attached in the middle to the winding body 23, so that the two wires 17 and 19 extend from this fastening point.

The mode of operation is as follows: The cradle 6 pivots in the counterclockwise, each individual rolling element 4 rolls between the outer bearing part 22 and the TAgerfläche 5 of the cradle body and rotates clockwise. Correspondingly, he also behaves with the others Rolling bodies 4 identical rolling bodies 24 and thereby takes the winding body 23 with it. By this rotation is forced, tß the winding body 23 winds the drum 17, so that through the wire 17 of the winding body 23 and with this the cage 8 downwards is pulled. That the wire 19 is also wound onto the winding body 23, does not cause any difficulties, as the pivoting of the cradle 6 the Attachment point 13 of the wire 19 is on an arc in the direction of the Winding body 23 moved towards. Now swings the cradle body 6 clockwise like this the opposite winding movement takes place accordingly: As a result of the movement of the attachment point 13, the wire 19 is unwound from the winding body 23, so that this and thus the cage 8 is taken along. Because by the rotation of the bobbin 23 the wire 17 is unwound in the opposite direction in clockwise direction, is the movement of the winding body 23 and thus the cage 8 upwards no obstacle opposed.

Two more wires corresponding to wires 17 and 19 are symmetrical arranged, so can a completely safe handling and entrainment of the cage Achieve 8. However, this success can also be achieved with the configuration according to FIG 1 can be achieved with less effort.

Claims (12)

Claims: 1.) Return device for the cage of a segment roller bearing with one with the outer bearing part the cage and the inner bearing part in connection standing feedback member, characterized in that the feedback member is a flexible pulling element (11, 11a) on the outer bearing part (2) and on the inner bearing part (6) is attached and guided over a deflection element (13) connected to the cage (8) is. 2.) Return device for the cage of a segment roller bearing with a return member connected to the cage and a bearing part, thereby gekenrizeichnet that the return member is a flexible pulling element (17, 19) from which one end is attached to the inner (6) or outer bearing part (22) and that on a winding body (25) which is coaxially connected to a rolling body (21;) and can be wound up is and runs tangentially to that side of the winding body (23) which the one Bearing part (22 or 6) facing, at which one end of the tension member concerned (17 or 19) is attached. 3.) return device according to one of claims 1 or 2, characterized characterized in that two flexible tension members (11, 11a and 17, 19) with the cage (8) are in operative connection. 4.) feedback device according to claims 1 and 3, characterized in that the two pulling elements (11, 11a) in the central position of the inner bearing part (6) are symmetrical to one another are arranged. 5.) return device according to claims 2 and 3, characterized in that that one pulling element (17) on the outer bearing part (21) and the other pulling element is attached to the inner bearing part (6). 6.) feedback device according to claims 2 and 3, characterized by dadvIrcIl, that both tension members are attached to the same bearing part. 7.) feedback device according to claim 1, characterized in that the deflection member a laterally from the cage (8) protruding Ver extension part one of the rolling elements (4) is. 8.) return device according to claims 1 and 3 and vorzugsvxeise 4 and possibly. 7, characterized in that both pulling members have a common Deflection bodies are guided. 9.) feedback device according to claim 8, characterized in that that both tension members have a common pulley on each side approximately to Wrap half around. 10.) return device according to claim 8, characterized in that that both tension members through a hole in a guide body attached to the cage are led. 11.) return device according to one of the preceding claims, characterized in that in the pulling element (11, 11a, 1.7, 19) an elastic member (12, 2a, 18, 28) is arranged. 12.) Use of a return device according to one of the preceding Claims for a segment roller bearing on the cradle of a swash plate axial piston machine.