DE102005023449A1 - Swash plate mechanism - Google Patents

Abstract

The invention relates to a swash plate mechanism, in particular for axial piston pumps, with a about a rotational axis (3) rotatable and inclined to this arranged wobble body (7, 13) which is supported via a radial rolling bearing in a housing (1) and one of the wobble body with interposition a swash plate (10) rotatably mounted on an axial roller bearing, on which end face oscillating output elements (12) are sprung. DOLLAR A According to the invention, the radial rolling bearing and / or the axial roller bearing as a wire roller bearing (8, 9, 14, 15) are formed.

Description

field of use the invention

The The invention relates to a swash plate mechanism, in particular for axial piston pumps, arranged with a rotatable about an axis of rotation and inclined to this oscillatory body and one on the wobble body rotatably mounted with the interposition of an axial roller bearing Swash plate, on the front side oscillating output elements are spring-loaded, wherein a drive shaft connected to the wobble body or the wobble body via a radial rolling bearing are held.

background the invention

Such swash plate gears have been known for a long time and are used in particular for high-pressure cleaning devices in the form of axial piston pumps. Such axial piston machine is for example from the DE 197 38 813 A1 previously known. In the single figure of this prior publication, an axial piston pump is shown in the drawing, which comprises a wobble drive, which has a rotatable about a rotational axis D of a drive shaft wobble body. The wobble body is attached to the drive shaft. An inclined to the axis of rotation D arranged on the wobble body with the interposition of an axial ball bearing rotatably mounted swash plate lies with its remote from the thrust ball end face on a piston. The wobble body is supported with the interposition of an angular contact ball bearing on a machine part.

adversely it is the case that such a swash bearing designed in a generic manner due to their complicated geometric shape quite complex to produce is. It is further disadvantageous that the raceways of the rolling bearings due to the high loads must have a certain hardness, so that they may warp during the hardening process. This is the reason that the bearing components after hardening must be ground again.

Other generic trained swash plate gear are in the DE 36 12 936 A1 . DE 42 05 859 A1 . DE 195 22 012 A1 . DE 197 40 436 A1 and in the DE 198 00 680 A1 described above.

Summary the invention

outgoing from the known disadvantages of the prior art, the invention therefore an object of the invention to provide a swash plate mechanism, which is simple and can be manufactured inexpensively.

According to the invention this Task according to the characterizing part of claim 1 in conjunction solved by the generic concept in that the radial rolling bearing and / or the axial rolling bearing as a wire roller bearing are formed.

By the use of the per se known wire rolling bearing is a separation between actual raceways of the rolling elements and the parts surrounding them realized the swash plate gear. The existing high-quality spring steel wires running wires in suitable outdoor areas inserted by connecting parts of the swash plate gear, wherein the running wires stay open, d. h., are slotted. In this way can voltages can be compensated or the run wires can with temperature fluctuations expand unhindered. The running wires are made of hard steel, but are still elastic and because of their small cross section torsional flexibility. They attach themselves under the rolling element pressure to the enclosing uncured components of the swashplate gearbox. The diameter of the profiled running wires is the assigned to respective ball diameter. For the running accuracy of the bearing First and foremost is the accuracy of the so-called wire beds prevail. These wire beds can be made very accurate, as they remain uncured and thus no subsequent deformations subject. By separating the raceway of the bearings and connecting parts of the swash plate gear can be the latter also manufacture as lightweight components, for example, the Swashplates made of aluminum or plastic be.

Further advantageous embodiments of the invention are described in the subclaims.

So Is provided according to claim 2, that the radial roller bearing as a angular ball wire bearings and the axial rolling bearing are designed as a four-point ball wire bearing. The angular ball wire bearing is It is designed and arranged so that it emanates from the piston axial forces can record easily. The same is true for the four point ball wire bearing to, with four-point ball wire bearings from all directions loadable are and also record moments loads.

According to claim 3, it is provided that the wobble body and the swash plate each have a mutually facing annular groove for receiving the running wires, wherein grooves and running wires have the same geometric dimensions. This ensures that during assembly the used run wires do not need to be assigned, so the assembly is easier.

In Development of the invention is provided according to claim 4, that the tumbling body made of a light metal. This can for example Made of aluminum, so that the total weight of the swash plate gear is reduced.

A Another variant of the invention is described in claim 5. After that is provided that the radial rolling bearing and the axial rolling bearing designed as angular ball wire bearings being employed to each other in X arrangement, being in this Case according to claim 6, both angular ball wire bearings may have the same geometric dimensions. This means that the used running wires can be used in both camps, so that due to not required Assignment the assembly is simplified.

To another additional Feature of the invention according to claim 7 should the outer raceways the angular ball wire bearing be formed by Spanlosteile. Such Spanlosteile can be produce easily and inexpensively in a variety of geometrical shapes and sizes

Finally is according to a last feature according to claim 8 provided that the tumbling body consists of a plastic, spaced on the lateral surface of each other the running wires for inner Trajectories of the angular ball wire bearings added are. This is by injection molding in any shape and size ratios Easy to manufacture and also ensures a weight reduction of the swashplate gear.

The Invention will be described in more detail in the following embodiments.

Short description of drawings

It demonstrate:

1 a longitudinal section through a swash plate mechanism according to the invention,

2 an enlarged view of in 1 shown swash bearing,

3 and 4 a longitudinal section and a perspective plan view of a further inventive swash bearing.

Full Description of the drawings

In the 1 Axial piston pump shown in its main components consists of the pump housing 1 in which the drive shaft 2 around its axis of rotation 3 is rotatably received, the seal to the outside by the sliding seal 4 is realized. The drive shaft 2 is about the fixing screw 5 and the disc 6 rotatably with the swash body 7 connected to the axis of rotation 3 is arranged inclined at an angle. The tumbling body 7 again, on the one hand, via the angular ball wire bearing 8th in housing 1 supported and stands on the other hand on the four-point ball wire bearings 9 with the swash plate 10 in operative connection, at the end face via springs 11 Output elements in the form of pistons 12 are supported. With a rotation of the drive shaft 2 and the body of tumble connected to it 7 is via the four-point ball wire bearing 9 and the swash plate 10 a reciprocating motion of the spring-loaded pistons 12 causes.

As from the enlarged view of the swash plate gear in 2 recognizable, the left side is on the wobble body 7 arranged angular ball wire bearings 8th out in the cage 8.2 guided bearing balls 8.1 running on running wires 8.3 . 8.4 roll off. While the treadmill 8.3 represents the inner raceway and on the lateral surface of the swash body 7 is arranged, the outer raceway is through the tread wire 8.4 placed in the pump housing 1 is arranged. The tumbling body 7 is with the swash plate 10 via the four-point ball wire bearing 9 connected. This consists of in the cage 9.2 arranged bearing balls 9.1 running on inner running wires 9.3 and on outer running wires 9.4 roll off. The running wires 9.3 . 9.4 are each in the groove 7.1 . 10.1 in the tumbling body 7 or in the swash plate 10 arranged. The running wires 8.3 . 8.4 . 9.3 and 9.4 are doing so in the tumbling body 7 and the swash plate 10 inserted, that their separation gaps are offset from each other. As can be seen, both the mutually facing grooves 7.1 and 10.1 as well as the opposing running wires 9.3 and 9.4 equipped with the same geometric dimensions, so that they can be used alternately. As can be seen, those of the pistons 12 outgoing axial forces on the swash plate 10 , the four-point ball wire bearing 9 and the angular ball wire bearing 8th transferred to the pump housing.

That in the 3 and 4 shown swash plate mechanism consists of the made of plastic swash plate 13 , whose receiving bore with the knurling 13.1 is provided over which the swash plate 13 rotatably with the drive shaft 2 is connectable. The radial bearing arranged on the left side is an angular ball wire bearing 14 out which forms in the cage 14.2 guided bearing balls 14.1 on the running wire, on the one hand 14.3 roll, which forms the inner raceway and on the other hand on the Spanlosteil 14.5 roll it in the pump housing 1 is attached. The axial roller bearing arranged on the right side is an angular ball wire bearing 15 formed, whose bearing balls 15.1 also in the cage 15.2 are held and on the run wires 15.3 roll off, which forms the inner raceway. The outer raceway is through the Spanlosteil 15.4 placed, which acts as a swash plate, on whose front side the piston 12 issue. This swash bearing is designed so that both bearings 14 . 15 have identical dimensions and therefore can be arranged both right and left side. The advantage of the last-described swash bearing is that compared to a four-point ball wire bearing low friction is realized, less parts incurred and a lower weight is present. Both bearings 14 . 15 are employed to each other in X-arrangement.

1

pump housing

2

drive shaft

3

axis of rotation

4

poetry

5

fixing screw

6

disc

7

oscillatory body

7.1

groove

8th

Angular contact ball bearing wire

8.1

bearing ball

8.2

Cage

8.3

running wire

8.4

running wire

9

Four-point ball-bearing wire

9.1

bearing balls

9.2

Cage

9.3

running wire

9.4

running wire

10

swash plate

10.1

groove

11

feather

12

piston

13

oscillatory body

13.1

knurled

14

Angular contact ball bearing wire

14.1

bearing ball

14.2

Cage

14.3

running wire

14.4

non-cutting process

15

Angular contact ball bearing wire

15.1

bearing ball

15.3

running wire

15.4

non-cutting process

Claims (8)

Swashplate gear, in particular for axial piston pumps, with one about an axis of rotation ( 3 ) rotatable and inclined to this arranged tumbling body ( 7 . 13 ) and one on the wobble body ( 7 . 13 ) with the interposition of an axial rolling bearing rotatably mounted swash plate ( 10 ), on the front side oscillating output elements ( 12 ), wherein one with the wobble body ( 7 . 13 ) connected drive shaft ( 2 ) or the wobble body ( 7 . 13 ) held over a radial rolling bearing, characterized in that the radial rolling bearing and / or the axial roller bearing as a wire roller bearing ( 8th . 9 . 14 . 15 ) are formed. Swash plate mechanism according to claim 1, characterized in that the radial roller bearing as an angular ball wire bearing ( 8th ) and the thrust roller bearing as a four-point ball wire bearing ( 9 ) are formed. Swash plate mechanism according to claim 1, characterized in that the wobble body ( 7 ) and the swash plate ( 10 ) one each facing annular groove ( 7.1 . 10.1 ) for receiving the running wires ( 9.3 . 9.4 ), wherein grooves ( 7.1 . 10.1 ) and running wires ( 9.3 . 9.4 ) have the same geometric dimensions. Swash plate mechanism according to claim 1, characterized in that the wobble body ( 7 ) is made of a light metal. Swash plate mechanism according to claim 1, characterized in that the radial roller bearing and the axial roller bearing as angular ball wire bearings ( 14 . 15 ) are formed, which are employed in an X-arrangement to each other. Swash plate mechanism according to claim 5, characterized in that both angular ball wire bearings ( 14 . 15 ) have the same geometric dimensions. Swash plate mechanism according to claim 5, characterized in that the outer races of the angular ball wire bearings ( 14 . 15 ) by chipless parts ( 14.4 . 15.4 ) are formed. Swash plate mechanism according to claim 5, characterized in that the wobble body ( 13 ) consists of a plastic, on whose lateral surface spaced from each other the running wires ( 14.3 . 15.3 ) for inner raceways of the angular ball wire bearings ( 14 . 15 ) are included.