EP0928895A2 - Axial piston machine with support part - Google Patents

Abstract

The pistons (7) support via slide shoes (8) on a pivot disc (11) pivotable around a pivot axis (14). A drawback device (15) is provided on which the slide shoes support during the drawback movement of the pistons and which has a distance from the pivot axis. At least one support part (31) on the housing (2) is for support of the drawback device. The support part in the area of the pivot axis of the pivot disc is arranged at least on the side of the axial piston machine (1) on which the pistons execute a suction stroke. The support part has a stop (36) spaced from the drawback device. The axial distance between the drawback device and the stop is independent of the pivot angle of the pivot disc.

Description

In an axial piston machine, whoever carries out the piston suction strokes then act axially Forces on the pistons that the pistons are trying to lift off the swivel plate. There these axial forces can be considerable are already restraint devices have been developed which axially support the retraction device to prevent it from overloading protect.

Such is the case with an axial piston machine described in DE 39 01 064 A1 Restraint device formed by a locking ring which in an inner groove Swivel disc sits and engages behind a retraction device. In this known Design, the retraction forces are absorbed by the swivel plate and over transmit a so-called swivel saddle of the cylinder drum, whereby different contact forces between the cylinder drum and an associated one Control disc result.

In DE-OS 21 01 213 an axial piston machine is described in which the Restraint device for supporting the retraction device is formed by holding plungers, which are mounted radially displaceable in radial guide holes in the housing and by springs are biased radially inward, being inclined at their inner ends have, which with respect to the associated radial plane to the neighboring Retraction device are inclined, and with these inclined surfaces the outer edge reach behind a perforated disk forming the retraction device. This well-known The restraint device has the following disadvantages due to the inclined surfaces. Basically, there is the disadvantage that due to the contact between the Retraction device and the tappets friction, wear and tear and one of them resulting warming take place constantly. If the slope of the inclined surface is too large is, there is also a risk that the perforated disc, the tappets due to the axial The pulling force of the pistons pushes outwards, causing the holding plungers to lose their stability and can exert no or only a reduced retention force on the perforated disc. In such a case there is a risk that the perforated disc by the axial tensile force the piston is overstressed and z. B. is bent. It should be borne in mind that due to vibrations and in the functional operation of the axial piston machine the holding plungers particularly effective on the radial force components acting on the inclined surfaces are inclined to evade radially outwards. If, on the other hand, the inclination of the Inclined surfaces is too small, there is a risk that the holding plunger on the perforated disc jam, which would affect the turning operation and due to wear with a insufficient lifespan would have to be expected. In addition, this results in known configuration especially then constraints between the Retraction device and the tappets when an adjustable swivel plate is present, which is due to the changed inclined position of the retraction device Swiveling the swashplate is caused.

The invention has for its object in an axial piston machine present type constraints between the retraction device and the support member avoid and still ensure a safe support.

This object is solved by the features of claim 1.

In the axial piston machine according to the invention there is a small axial distance between the retraction device and the stop of the support part, the distance is independent of the swivel angle of the swivel disc. This results in a Contact between the retraction device and the stop only with an axial Overloading the retraction device, the retraction device at the stop is supported and stabilized. The axial distance is preferably only so large that the Retraction device with a large axial load or overload by the Retraction forces hit the stop before the retractor over their deformed elastic deformation range or beyond its yield strength or is bent. This ensures that the retraction device only at Load peaks come into contact with the support envelope and are then effectively supported becomes. When the load or overload ceases, the retractor returns due to their elasticity back to their starting position.

It is thus ensured that, under normal load, the axial piston machine between there is no contact and friction between the retraction device and the stop. A Contact and friction only take place when there is a heavy load or overload during the Support function instead of what occurs only rarely in normal functional operation. The attack thus forms an improved restraint device for the retraction device in the sense a safety device. In addition, the configuration according to the invention is distinguished characterized in that the distance between the retraction device and the stop in the entire center of gravity of the swivel plate is essentially the same.

The stop can be rounded and / or have the shape of a stop ridge. The stop can have a shape that is applied to the stop ridge Flanks is limited, of which one flank is essentially parallel to the Support plane of the swivel plate extends in its zero position and the other flank itself parallel to the support plane of the swivel plate in its maximum swiveled-out position extends. An advantageous form of the support part is given when the one flank in is a transverse plane and the other flank compared to the first flank around the maximum viewing angle is angled towards the cylinder drum. The stop ridge can laterally with respect to an axial plane containing the pivot axis or other side may be offset or spaced. This offset or transverse distance is too the side on which the swivel plate swings out to the cylinder drum pivots there. It is essential that the distance between the Retraction device and the stop is present and with greater axial load or overload the retraction device is supported at the stop.

In the subclaims are included features that are small and inexpensive manufacturable construction lead that is easy to assemble and disassemble and a ensure safe positioning of the stop and a long service life.

Fig. 1

eine erfindungsgemäße Axialkolbenmaschine im axialen Schnitt;

Fig. 2

die Axialkolbenmaschine in der Draufsicht;

Fig. 3

den Teilschnitt III-III in Fig. 1 in der Nullstellung der Axialkolbenmaschine;

Fig. 4

den Teilschnitt III-III in der Nullstellung der Axialkolbenmaschine in abgewandelter Ausgestaltung; und

Fig. 5

den Teilschnitt III-III in der Nullstellung der Axialkolbenmaschine in weiter abgewandelter Ausgestaltung.

The invention and further advantages which can be achieved by means of preferred exemplary embodiments and simplified drawings are explained in more detail below. Show it:

Fig. 1

an axial piston machine according to the invention in axial section;

Fig. 2

the axial piston machine in plan view;

Fig. 3

the partial section III-III in Figure 1 in the zero position of the axial piston machine.

Fig. 4

the partial section III-III in the zero position of the axial piston machine in a modified embodiment; and

Fig. 5

the partial section III-III in the zero position of the axial piston machine in a further modified embodiment.

The main parts of the axial piston machine, generally designated 1, are a housing 2 with a housing wall 2a visible in section in the drawing, which has a Encloses interior 3, in which a cylinder drum 5 on a shaft 4 several, preferably distributed on a pitch circle and directed longitudinally Cylinder bores 6 is arranged, a plurality of pistons 7, which are in the cylinder bores 6 are axially displaceable, a plurality of sliding shoes 8 which are pivotable, but axially fixedly connected to spherical piston heads 9 at one end of the pistons 7, a swash plate 11, on the inclined surface 12 of the sliding shoes 8 and axially are supported, the swash plate 11 about a right angle to the longitudinal central axis the axial piston machine 1 or the axis of rotation 13 of the shaft 4 Swivel axis 14 in a swivel bearing 14a by an adjusting device (not shown) is pivotable and is lockable in the respective pivot position, a retraction device 15, the purpose of which is to place the sliding shoes 8 on the Secure inclined surface 12, a retaining device 16, which is used to stabilize the Retraction device 15 is provided and a control disc 17 which on the Swing plate 11 facing away from the cylinder drum 5 and by means of Control disk 17 arranged control slots 18 and cooperating therewith Cylinder bore holes 19 in the cylinder drum 5 promote the present Trap hydraulic medium of the axial piston machine 1 controls. Through a the Cylinder drum 5 against the control disk 17 biasing spring 21 is a tight System between the cylinder drum 5 and the control disc 17 guaranteed.

The retraction device 15 is through a perforated disc 22 in the number of Sliding shoes 8 existing holes 23 formed, the edges of the holes, the sliding shoes 8 in Area surrounded by tapered glide heads with play and with their Swivel plate 11 facing side on a foot flange 24 of the associated Slide shoe 8 abut so that the foot flange 24 with little movement between the inclined surface 12 and the perforated disc 22 is held. The perforated disc 22 itself on its side facing away from the heavy plate 11 on a spherical ring section Bearing surface on an inner support ring 26.

The retention device 16 is mirrored by one or two mutually oppositely arranged and formed support members 31 formed in the area the pivot axis 14 protrude radially inward from the unifangswand 2a of the housing 2 and engage behind the retraction device 15 with an axial distance a. The etched parts 31 are preferably separate components which are fastened on the inside to the peripheral wall 2a, preferably by screws 32. It is advantageous to position the Support parts 31 radial and preferably also axial positioning surfaces 33a, 33b on the Provide peripheral wall 2a, on which the support members 31 with corresponding surfaces abut and in particular are axially positioned so that the screws 32 in the positively positioned position of the support members 31 fulfill their fastening function. The support parts 31 have a radially inwardly projecting support leg 31a and a axially extending support leg 31b angular, the screws 32 through the peripheral wall 2a from the outside in through holes 34 and in Hold threaded holes 35 in the support parts 31, here in the support legs 31b. The Screw heads 32a are preferably in extensions of the through holes 34 arranged sunk.

In the present embodiment, the positioning surfaces 33a, 33b are through recesses 33c in the form of cylindrical sections in the inner surface of the peripheral wall 2a formed, the ends of the swash plate 11 facing each by a radial step surface forming the associated positioning surface 33a is limited. The Recesses 33c are in the axial direction facing the cylinder drum 5 open.

The distance a is small and can be about a few tenths of a millimeter to about 1 mm or up be about 2 mm. The size of the distance a depends on the flexibility of the Construction. The distance a is at a maximum such that the retraction device 15 in the event of an axial overload in the direction of the retaining device 16 against the latter generally designated 36 stop on the associated support member 31 before the Retraction device 15 beyond their elastic deformation range or beyond their Yield point is deformed or bent.

As can be seen in particular from Fig. 3, the stop 36 can be rounded by a Be formed surface, the radial distance ra to the pivot axis 14 in the Swinging direction of the swash plate 11 increases. Hikes with this configuration the anchor point when swiveling outwards and swiveling back again Inside.

4 and 5, the or the support parts 31 have one in their central region radially extending rounded or angular stop projection or stop ridge 36a, which is preferably located in the middle swivel range and from which can extend to both sides stop flanks 36b, 36c, one of which Stop flank 36b extends approximately at right angles to the axis of rotation 13 and the other Stop flank 36c is approximately parallel to the swivel plate 11 in its maximum Swing position extends. The stop flank 36b extends approximately parallel to the Back surface 37 of the retaining device 16 or perforated disk 22 in its zero position, and the stop flank 36c extends parallel to the back surface 37 at the maximum Pivotal position of the retraction device 15. The of the stop flanks 36b, 36c included, open to the cylinder drum 5 angle is denoted by b. Of the Offset of the stop 36 or stop ridge 36a with respect to the pivot axis 14 and the longitudinal center plane E containing the axis of rotation 13 is denoted by V. As before 3 the distance a remains in all Pivotal positions of the swivel plate 11 are essentially the same. Small differences or tolerances in the position of the pivot axis 14 and in the size of the distance a are harmless as long as a distance between the retraction device 15 and the stop ridge 26a is guaranteed and on the other hand the distance is only so large that with a large load or overload, the retraction device 15 on the support part 31 can support before it is damagingly overloaded and permanently deformed or bent becomes.

The recesses 33c also correspond to the offset V of the stop ridge 36a offset with respect to the longitudinal median plane E. 4 and 5 is a the tilting moment resulting from the stop is limited to an average value.

Within the scope of the invention, the stop flanks 36b, 36c can have one indicated acute angle c with the back surface 37 in the zero position and in the maximum Include swivel position up to about 5 °, e.g. B. can be about 0.5 to 5 °. In this modified embodiment, the axial distance a remains in each Swivel position of the swivel plate 11 is the same size. The last one described Modification with the angle c has the advantage that in the functional mode Overload a hydrodynamic lubricating film between the respective stop flank 26b, 26c and the back surface 37 can build, which improves the lubrication and friction and wear will be reduced.

A further advantageous embodiment of the axial piston machine 1 consists in a Device 41 for automatic lubrication of the one on both sides of the rotary shaft 13 Swivel bearing 42. The lubrication device 41 has lubrication channels 43 which differ from the sliding surface 12, in particular of known, in the foot surface of the sliding shoes 8 existing pressure pockets, extend to the pivot bearings 42. Preferably located there is a throttle point 45 in the lubrication channels 43, in particular in the confluence area of the lubrication channels 43. This improved lubrication enables the pivot bearings 42 to be formed by plain bearings with plain bearing shells 46, as shown in FIG. 1. It is also advantageous if the lubrication channels 43 in the circumferential direction of the Open pivot bearing 42 extending lubrication grooves 44.

In the case of an axial piston machine 1 of the present type, or act in pump operation when the axial piston machine performs a braking function in motor operation the piston suction forces that the sliding shoes and thus the retraction device 15 from the Try to lift off the swash plate. If these suction forces one through the construction exceed certain size, the retraction device 15 may be overloaded, for. B. be permanently deformed and bent. This is the case with the invention Configuration avoided because the retraction device 15 on the restraint device 16 effective support takes place before the retractor 15 over its elastic Deformation area deformed or bent beyond its yield point becomes. The retraction device 15 is supported only during peak loads. If stops the overload, the retraction device 15 returns due to its elasticity automatically return to their starting position. This is a touch and Friction between the retraction device 15 and the restraint device 16 normal loads on the axial piston machine 1 avoided, causing frictional wear is prevented or avoided when peak loads do not occur.

The load peaks described above can occur both when the pistons 7 exert a pulling force on the retraction device 15 in the previously described sense and / or then if there is an increased leakage oil pressure or an increased interior pressure that exists between the Slip shoes 8 and the swivel plate 11 takes effect, the slide shoes 8 from the Seek to remove the swivel plate 11.

Claims (11)

Axial piston machine (1) with a housing (2), in the housing interior (3) a cylinder drum (5) is mounted, in which several, approximately axially extending Cylinder bores (6) are formed, in which pistons (7) are movably guided itself via sliding shoes (8) on a pivotable about a pivot axis (14) Support the swivel plate (11) with a retraction device (15) on which the Support sliding shoes (8) during the retraction movement of the pistons (7), and one Distance (ra) from the pivot axis (14), and with at least one on the housing arranged support part (31) for supporting the retraction device (15) on the housing (2), the support part (31) in the region of the swivel axis (14) of the swivel plate (11) is arranged at least on the side of the axial piston machine (1) on which the pistons (7) perform a suction stroke, the support member (31) one from the retractor (15) has a spaced stop (36) and the axial distance (a) between the Retraction device (15) and the stop (36) substantially independent of Swivel angle of the swash plate (11). Axial piston machine according to claim 1,
characterized,
that the axial distance (a) is only so great that the retraction device hits the stop (36) in the event of an axial overload before it is deformed or bent beyond its elastic limit. Axial piston machine according to claim 1 or 2,
characterized,
that the stop (36) lies in the angular range of an angle (b) open to the cylinder drum (5), one leg (36b) of which extends parallel to the swivel plate (11) in its zero position and the other leg (36c) of which is approximately parallel to the Swing plate (11) extends in its maximum pivot position. Axial piston machine according to one of the preceding claims 1 to 3,
characterized,
that the stop (36) has a stop surface facing the retraction device (15), which is convexly rounded. Axial piston machine according to one of the preceding claims 1 to 4,
characterized,
that the stop (36) has a rounded or edge-shaped stop ridge (36a) from which stop flanks (36b, 36c) extend to both sides, of which one stop flank (36b) extends parallel to the swivel plate (11) in its zero position or includes an acute angle (c) of up to preferably about 5 ° and the other stop flank (36c) extends parallel to the swivel disk (11) in its maximum swivel position or includes an acute angle (c) of up to preferably about 5 ° . Axial piston machine according to one of the preceding claims 1 to 5,
characterized,
that the stop (36) or stop ridge (36a) is offset transversely (Fig. 3) or spaced (Fig. 4) with respect to an axial plane (E) containing the pivot axis (14) and preferably also the axis of rotation (13) of the cylinder drum (5) and 5). Axial piston machine according to one of the preceding claims 1 to 6,
characterized,
that the support part (31) is a separate component that is fastened on the inside to the peripheral wall (2a) of the housing (2). Axial piston machine according to claim 7,
characterized,
that the peripheral wall (2a) has a radial positioning surface (33a) for positioning the support part (31) in the direction of the retraction device (15) and preferably also an axial positioning surface (33b) for positioning the support part (31) radially outwards. Axial piston machine according to claim 7 or 8,
characterized,
that the support part (31) is screwed to the peripheral wall (2a) by a screw (32), the screw (32) preferably being screwed in from the outside. Axial piston machine according to one of the preceding claims 1 to 9,
characterized,
that the support part (31) is angularly shaped with a radially inwardly extending stop leg (31a) and an approximately axially parallel fastening leg (31b). Axial piston machine according to one of the preceding claims 7 to 10,
characterized,
that the support part (31) sits in an axially parallel recess (33c) in the peripheral wall (2a), the recess (33c) preferably having a circular cross-sectional shape and the support part (31) with a corresponding circular segment-shaped curvature in the recess (33c ) sits.

Images