DE2459083C2 - Axial piston machine - Google Patents

Description

The invention relates to an axial piston machine whose cylinder drum is exclusively or additionally by a spring clamped between a stop on the cylinder drum and another part is pressed against a control plate. Also bsi cylinder drums, in which the outlet openings at the end face have so much smaller cross-section than the cylinder that due to the pressure in the cylinder a Force overhang is caused, a spring must also be provided, just in order to start a To secure the possibility of operation if there is initially no pressure.

In the case of axial piston machines ^ which are not through a Forced guidance, for example on a central journal or on the outer circumference of the cylinder drum are inevitably guided with their axis of rotation exactly perpendicular to the control plate surface, there is a risk of because the pressure acting on one side in the control plate gap tilts the cylinder drum. Self in the case of cylinder drums guided in the above-mentioned manner by forced guidance there is a risk that these lift off from the control plate surface to an inadmissible degree and thus inadmissibly high leakage losses on the Control mirror occur. In order to avoid such a tilting or lifting off, one used so far Pressure springs with a very steep spring characteristic. This has the disadvantage that even slight deviations from the provided dimensions, for example in the distance between the two stops of the spring or auclfi small deviations in the spring stiffness result in significant deviations in the force with which the The spring pushes the cylinder drum against the control plate. But that is very unsatisfactory.

In a known axial piston machine in the swivel slide design, the swivel slide connected to a central journal on which the cylinder drum is mounted by means of a roller bearing for the purpose The rotary drive is the drive flange with the cylinder drum through a constant velocity joint connected, which has a long middle part. In a central bore of this middle part is a Arranged spring which is supported on the one hand against this middle part, on the other hand against a joint block which, on the other hand, is supported on the outer ring of the roller bearing on which the cylinder drum is mounted -With this outer ring, in turn, is supported in the direction of the control plate in the cylinder drum this spring in the driving joint is arranged with play, a bolt that buckles the spring prevented. Since the swivel slide and thus the cylinder drum around the axis of curvature of the hollow cylindrical Area in which the swivel chute is supported, swings and the central part of the joint about a support point of the same does not pivot in the axis of curvature of the guide track of the swivel slide is the size of the game on the face of the central bolt depends on the Swivel position of the cylinder drum. The spring is used, even at 'different distances Cylinder drum from the hinge point around which the middle part of the Go'enk swings, this middle part in to hold a defined position (US-PS 32 89 604).

In another known axial piston machine in drive flange design, in which the angle between the The axis of rotation of the cylinder drum and the drive flange axis is unchangeable, is for the purpose of inevitable Rotary drive of the cylinder drum a bevel gear in the central area of the drive flange provided, which meshes with a toothing of an elongated sleeve on a ball joint at the point of intersection the toothing is guided. Inside this sleeve, a spring is arranged on a Presses the spring plate, which on the other hand is supported against the cylinder drum and thus in a known manner transmits a spring force to the cylinder drum, which presses it against the control plate. To this sleeve assemble with the spring and the cylinder drum to a preassembled assembly and as To be able to install such in the housing, a stop collar is provided on the outside of the sleeve and an expansion ring is attached to the inside of the cylinder drum, against which the stop collar rests the sleeve can apply. However, these components are not suitable for lifting the cylinder drum from the To limit the control mirror to a fraction of a millimeter (US-PS 30 53 197).

The invention is based on the object to provide a tilting device that has a Prevents a predetermined acceptable amount from tilting or lifting of the cylinder drum.

For this purpose, according to the invention, between the cylinder drum and another component, preferably between the two components, between which the spring is also clamped, a spacer arranged, which limits the retreat of the cylinder drum against the force of the spring. Thus, the Cylinder drum does not retreat more than this distance limiter allows, and thus can

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15th

the gap on the control plate surface does not become larger than this distance limiter allows. This The distance limiter is so dimensioned that it is in full contact with the cylinder drum against the control plate surface with a certain clearance between the components between which it is installed, this play can be limited to 0.1 mm, for example, or in the case of another axial piston machine can be measured at 03 mm. If the cylinder drum moves back against the force of the spring, it moves the spacer until it comes to rest and prevents another one as soon as it comes to rest The cylinder drum retreats. This spacer can, for example, on the outer periphery of the Cylinder drum be formed directly by a collar on this, which against a counter ring on Housing starts up Preferably it is provided that the spacer shark is designed in the form of a socket and is arranged inside the cylinder drum in its central bore and between a collar or a snap ring in the cylinder drum on the one hand and a collar or support ring on the corrugation or is arranged in particular on the central pin. This collar or support ring on the central pin can be so convex be designed and be enclosed in the central bore of the cylinder drum that he the cylinder drum longitudinally displaceable and tiltable but leads without radial play. The tilting movement is then carried out limited the tilting stop formed by the spacer.

It is made possible by the configuration according to the invention. Use springs with a flat spring characteristic, so that a deviation in the intended dimensions or in the spring characteristic causes a slight change in the contact pressure.Thus, you can work on these components with less manufacturing tolerance and thus cheaper and simpler springs can be used, for example several layered disc springs or coil springs. It is also no longer necessary by three configuration according to the invention to arrange the counter bearing only with regard to the spring length at a certain point, but the spring bearing can be arranged where it is most favorable for production or assembly, for example in such a way that ^4:> in the manner mentioned, this counter'.iger also serves to guide the cylinder drum.

It is particularly useful to use the arrangement according to the invention in the case of adjustable ones

JO

40 axial piston machines, in which the cylinder drum runs against a control body, which in turn is pivotably and displaceably arranged in the housing

The cylinder drum 1 lies with its end face 2 against an intermediate plate 3 on the control plate body 4 on, which can be pivoted along a counter surface 6 by means of an adjusting pin 5.

In the cylinder drum 1 cylinder bores 7 are arranged in which no longer in the drawing Pistons shown are displaceable with piston rods also not shown in the drawing are supported against the drive flange 8. The center pin 9 is by means of a joint ball 10 in Drive flange 8 and is on the other hand with its guide part 11 in a guide sleeve 12 of the Control plate body 4 mounted so as to be longitudinally displaceable. Against a collar 13 of the central pin 9 is a Support ring 14 is supported, which is convex on its outer surface 15. This fits exactly into the inner wall surface 16 the central bore of the cylinder drum 1. In an annular groove in the central. Bore of the cylinder drum 1 the snap ring 20 is used. A stop ring 21 is supported against this, against which the Disk spring package 22 supports this disk spring package 22 is on the other hand supported by a support sleeve 23 against the support ring 14 coaxially around this support sleeve 23 around the bushing 24 is arranged.

The length of this spacer 24 is dimensioned such that when the cylinder drum 1 with their end face 2 under the action of the spring assembly

22 rests snugly against the disk 3 between the support ring 14 and the spacer 24 a small gap 25 remains the size of which is predetermined within tight tolerances.

If the cylinder drum moves back against the force of the springs 22, the spacer 24 also becomes pushed back and thus reduces the gap 2S until the spacer 24 directly against the support ring 14 comes to the point. In this position, the spacer 24 prevents further retreat of the Cylinder drum 1 against the force of spring 22.

Instead of the disc spring assemblies 22 and the collet sleeve

23 a correspondingly long helical spring can also be arranged. The effect remains unaffected the same. In any case, it will be through the spacer

24 limits the retreat of the cylinder drum 1.

1 sheet of drawings

Claims (7)

Patent claims: 1. Axial piston machine whose cylinder drum by means of a between a stop on the Cylinder drum and another part clamped spring pressed against a control plate is, characterized in that between the stop (21) on the cylinder drum and the other part (14) to allow the cylinder drum (1) to retreat against the force of the spring (22) limiting spacer (24) is arranged. 2. Axial piston machine according to claim 1, characterized in that the spacer (24) has a Bushing which is arranged in a central bore of the cylinder drum (1) is ι5 3. Axial piston machine according to claim 1, characterized in that the other part, against which the spring is supported, a collar or support ring on the shaft "ISL ₁ 4. Axial piston machine according to claim 1, characterized in that the other part against which the Spring (22) is supported, a collar or support ring (14) is on a central pin. 5. Axial piston machine according to claim 4, characterized in that the collar or support ring (14) is convex on the central journal and that the cylinder drum is guided on this 6. Axial piston machine according to claim 1, characterized in that the spring has a flat spring characteristic having. 7. Axial piston machine according to claim 6, characterized in that c'ne Fedc. · A helical spring is.