DE3238362A1 - Axial piston machine - Google Patents

Abstract

Axial piston machine with a swash plate formed on a swivelling element 25 and with a housing and a shaft 17 supported in bearings 49/50 and 44/50, which is connected to a cylinder drum 19 in which pistons 22 braced against the swash plate 24 are displaceable, the bearing 49/50, on the swash plate side, of the shaft 17 being supported in the swash plate bearing element 34 in order to shorten the overall length. <IMAGE>

Description

.: \. J '.i- ^: ... ^: - * .Λ: Ι. 323836. 1

- 3 LINDE AKTIENGESELLSCHAFT

A 82/80 •. ■ DP-St / As

A 678 October 15, 1982

Axial piston machine

The invention relates to an axial piston machine (pump or motor) in swash plate design with a housing and with a swash plate and with a shaft mounted directly or indirectly in bearings in the housing, the is connected to a cylinder drum, in the against the swash plate supported pistons are displaceable, wherein the swash plate support body with respect to the inclination of the swash plate in relation to the axis of rotation of the unadjustable machine from a single component can exist, while the swash plate support body in a machine in which the inclination of the swash plate is adjustable with respect to the axis of rotation, from a swash plate body and a support body in which the swashplate is mounted bentragkörper is formed. Both previously known adjustable swash plate machines the swash plate body is either mounted in roller bearings, the bearing shells either in a support body or are stored directly in the housing, or is by means of Plain bearing shells with sliding bearings, the swashplate body opposite plain bearing shells as well either stored in a support body ("end shield")

Shape. 5729 7.78

are or are stored in the housing. The main drive shaft bearing is mounted in the axial direction next to the support body and is supported either in the housing or in the end shield away. This results in a relatively large overall length in the axial extent due to the arrangement one behind the other the bearing of the swash plate body and the drive shaft bearing and the manufacturing costs are high.

The invention is based on the object of creating a machine according to the preamble that has the lowest possible Has overall length and can be created with low manufacturing costs.

This object is achieved according to the invention in that the swash plate side ti ge bearing of the shaft in the swash plate support body is arranged, that is, lies in a plane perpendicular to the axis of rotation, in which is also the inclined pulley support body, preferably the bearing of the shaft in the swash plate support body is supported.

In particular, the invention relates to an adjustable one Axial piston machine in which the swash plate is on a swash plate body is formed in a

25 the cradle support body forming the supporting body is pivotable is mounted so that the cradle support together form the swash plate support body with the swash plate body, wherein according to the invention the swash plate side ti ge The shaft bearing is arranged in the cradle support body and is preferably also supported (supported).

Shape. 5729 7.78

* ■ ί> Γ «* *

323836

- 5 -

The cradle support body lies against the front side of the housing, the housing preferably being pot-shaped is designed so that the end face the pot bottom surface forms against the inside of the cradle support is present. In a particularly expedient embodiment is the cradle support by means of an adjustment collar in the face of the housing against radial displacements secured and is secured against rotation by twist prevention means known per se. As such Usually pins or bolts are inserted into the / 9 * "· housing face and through the contact plane also in the cradle support body, at least on its circumference protrude '. In contrast to the familiar with the housing Bolted end shields are the concern of the

15Cradle support body against the housing face only caused by the forces that the pistons on the swash plate and thus the swash plate body against the cradle support body to press.

20 It is particularly useful if the cradle support only with an outer edge surface against the housing face (Case bottom) is supported while that continues

Part

adjacent to the shaft / the base of the cradle support ** ■

body is provided with a recess that

25 the end face recedes somewhat with respect to the edge face. This results in more favorable load conditions in the front face (housing base), which make it possible to to keep the wall thickness of this end face (housing base) relatively small and thereby also the axial extent

to keep gogering and still with regard to the noise emission to create favorable conditions.

35

Shape. 5729 7.78

In most axial piston machines, this is on the swash plate side Bearings provided for transmitting axial forces from the shaft to the housing. According to an expedient Step of the invention is in such an axial piston machine the outer ring of the swashplate-side bearing is supported against the same face of the housing, against which the cradle support is also supported. It is also possible to counteract the outer ring of this bearing to support a collar in the cradle support body, so that the supporting force via the cradle support body into the housing is directed. The aim pursued according to the invention, to achieve the smallest possible length, is, however better achieved if the outer ring of the bearing is immediate

is supported in the housing.
15th

In the previously known machines, there is between the swash plate body and end shield, as mentioned, either a roller bearing arranged, which according to its dimensions the axial extent is enlarged, or a sliding bearing is arranged in which at least one of the two components a shell or a band made of bearing metal is arranged. To also the space for this warehouse and the manufacurer! 1 expended to save this, it is provided that the swash plate body is formed from a single workpiece or or preferably and also the cradle support body is formed from a single workpiece, swashplate body and cradle support bodies directly on top of one another with a cylindrical or hollow cylindrical surface lie, the material of the swash plate body or or and of the cradle support body selected in this way is that there is a material pairing with good sliding properties on the sliding surface. For example the swashplate body can be made of gas nitrided Steel, while the cradle support is pearlitic Nodular cast iron is made and nitrided.

Shape. 5729 7.78

ΛΛ.- :. 3238 36th!

This results in a bearing with good sliding properties, the manufacturing costs are very low and "the axial extent is also small in accordance with the aim on which the invention is based.
5

In the case of an axial piston pump, the one for direct flange-mounting is provided on the flywheel bell, can in a particularly expedient embodiment according to an essential further step of the invention that the free shaft end of the pump shaft with a corresponding connection, for example splines , directly into the hollow wave-shaped shaft connection the clutch is inserted, this hollow shaft-shaped part of the clutch in the bore of the swing disc or the crankshaft of the piston engine protrudes into it.

The following features are important:

The face of the pump protrudes in the direction of the internal combustion engine via the flange level, iη that of the pump housing flange rests against the flywheel bell, into the flywheel bell out, so that here too the goal a small overall length is achieved particularly perfectly.

In order to make this possible, it is also provided that the coupling itself has the smallest possible axial extension has, in the axial direction thin-walled webs or disc parts that are curved in such a way, that they adapt themselves in an optimal way to the space between front surface of the pump and the front surface of the flywheel.

Furthermore, the elastic elements are arranged between the flywheel and clutch within the wide flywheel and the coupling protrudes with a pin connected to it

Shape. 5729 7.78

into these elastic elements. The goal of a small extension in the axial direction is thereby in most favorable way achieved.

In the drawing is an exemplary embodiment of the invention subject a two-pump unit shown.

Figure 1 shows an axial section through the unit and

FIG. 2 shows a section offset by 90 ° through the same axis of the assembly according to FIG. 1.

The housing 1 of the pump of the two-pump unit on the left in the drawing consists of a workpiece with the flange part 2, which is on the contact surface 3 on the flywheel bell 4 of the internal combustion engine not shown below is fastened by screws 5. On the crankshaft 6 of the internal combustion engine is by means of Screws 7 fastened the flywheel 8. Elastic coupling means 10 are located in bores 9 of the flywheel 8 arranged, each engaging around a pin 11 which is fastened in a clutch disc 12, which in the axial Direction is as thin as possible, and is curved so that it is within the space between the Flywheel 8 and the end face part 13 of the housing 1 takes up as little space in the axial direction as possible. The hollow shaft 14 of the clutch 12, 14 protrudes into the bore 15 of the crankshaft 6 and is inside with a toothing 16 which is in engagement with a toothing on the shaft 17 of the pump. The wave is provided with a further toothing 18, which is provided with an internal toothing in the central bore of the cylinder

. drum 19 is engaged. In the cylinder drum 19 cylinder bores 20 are provided, one in each Slide bushing 21 is arranged and in each one a piston

/
Shape. 5729 7.78

323836. '

is displaceable, which by means of "a sliding shoe 23 against the swash plate 24, which is formed on the swash plate body 25, is supported. Against the collar surfaces a hold-down plate 26 rests against the sliding shoes 23, which is printed via a spherical ring 27 against the sliding shoes 2Ξ, the pressing force through in the drawing no longer shown pressure pins from the pressure ring is transmitted, against which the spring 29 is supported, which is supported on the other hand against a pressure ring 30, which by means of an expanding ring 31 in the cylinder drum 19 is stored.

The swash plate body 25 has a cylindrical outer surface 32 which rests against a hollow cylindrical surface 33 on the cradle support body 34, which is guided with a cylindrical part 35 in an adjustment bore 36 in the end face 13 of the housing 1 and against the inner side surface 39 of the same with an edge surface 37 is present. The inner part 38 of the end face of the cradle support body 34 is set back with respect to the edge surface 37 so that it does not bear against the inside surface 39 of the end face 13. This results in a favorable stress on the end face 13 of the housing T with regard to the bending moment, since the force is introduced into this end face 13 in the vicinity of the transition into the cylindrical part of the cup-shaped housing 1. This makes it possible to make the end face 13 thin-walled, so that the axial extent is also small as a result. To prevent unwanted rotation, the cradle support body is fixed with respect to the end face 13 by an adjusting pin 40 which is inserted into a corresponding bore in the end face 13 and in the cradle support body 34. Lateral stop collars 41 are provided on the cradle support body 13, which prevent the swash plate body. 25 laterally in the direction of the swivel shape. 5729 7.78

- 10 -

axis from the cradle support 34 also moves.

The cylinder drum 19 lies against with its end face a control plate 42, which in turn rests against a control base receiving body 43 against which the housing 1 is screwed on by means of screws 44.

The force of the spring 29 on the one hand presses the cylinder drum 19a into the control plate 42 and thus against the Control bottom receiving body 43 and on the other hand via the Hold-down plate .26, the sliding shoes 23 and the swash plate 24 on the swash plate body 25 and from this

._ Via the surfaces 32 and 33 on the cradle support body 15th

and thus presses it against the end face 13 of the housing 1, so that the power flow path is closed, Special devices for fastening, for example screwing, the cradle support body 34 are therefore not required

required and not provided.
20th

In a central bore 45 of the control base receiving body 43 is the outer ring 46 of a tapered roller bearing 46/47 stored and supported against a collar of the control base receiving body 43. The inner ring 47 is on the white 17 supported and axially against this by an expanding ring 48 supported.

The swashplate-side bearing of shaft 17 is a tapered roller bearing 49, 50, the inner ring 49 of which on the shaft 17 30

stored and supported against a collar 53 of the same is. The outer ring 50 of the taper roller bearing 49/50 is in a bore 51 of the cradle support body 34 is supported

Shape. 5729 7.78

323836J

and radially supported and is in the axial direction against the inner side surface 39 of the end face 13 of the housing supported. The tapered roller bearing 49/50 is so within of the cradle support body 34 is arranged.

The channels are also located in the control base receiving body 43 arranged to supply and discharge the working fluid to the cylinder drums 19 of the two pumps of the aggregate.

The pump of the two-pump unit on the right in the drawing differs from the pump on the left in the drawing only in that the housing 61 is the one in the drawing right pump is not provided with a flange part 2 and not an opening for passing the shaft having.

Both shafts 17 have a spline 55 which with corresponding splines on the coupling sleeve 56 is in engagement, the torque from the shaft 17 on the left in the drawing to that in the drawing right shaft 17 transmits. This coupling sleeve 56 is provided on the outside with a toothing 57 which meshes with the toothing of a pinion 58 which is mounted on a bolt 49 is mounted, which in turn is mounted in the control base receiving body 43. The pinion 58 is used to drive a power take-off shaft no longer shown in the drawing.

The goal of achieving the smallest possible axial extent and the lowest possible manufacturing costs will continue achieved in that the adjusting cylinder, which is used to adjust the inclination of the swash plate body 25 is provided are, as bores 62 directly in the control base receiving body 43 are designed. In each of these

Shape. 5729 7.78

- 12 - ■ "

1 actuating cylinder bores 62, an actuating piston 63 is displaceable, by an O-ring 64 in the actuating cylinder bore 62 is sealed and on the other hand is supported via a ball joint 65 in the swash plate body 25. To-

5 m '^ iesv SCMS ^- St <£ üe swash plate süiar r3cü »siEer Ric ^ tüRg must be pivotable from its position perpendicular to the axis of rotation, sufficient cylinder lengths can be achieved in this way.

Shape. 5729 7.7B

BATH

Blank page

Claims (6)

LINDE AKTIENGESELLSCHAFT A 82/80 DP-St / As A 678 10/15/1982 Claims Axial piston machine with one on a swash plate support body formed swash plate and with a housing and with a shaft mounted in bearings that is connected to a cylinder drum, in the against piston supported by the swashplate. movable, are, characterized in that the swash plate side ti ge Bearings (49, 50) of the shaft (17) in the swash plate support. body is supported. 2. Adjustable axial piston machine according to claim!, At the swash plate (24) on a swash plate body (25) is formed, which is pivotably mounted in a cradle support body (34), characterized in that that the schräibensei ti ge bearings (49, 50) of the shaft (17) in the cradle support body (34) is. 3. Axial piston machine according to claim 2, characterized in that that the cradle support body (34) rests against an end face (13, 13a) of the housing (1 or 61) and in this by means of an adjusting collar (36) radially Shape. 5729 7.78 is fixed in position, with anti-rotation means (40) are provided. 4. Axial piston machine according to claim 3, characterized in that that the cradle support body (34) designed with only one outer edge surface (37) against the thin-walled Housing end face (13, 13a) is supported. 5. Axial piston machine according to claim 2, wherein the swash plate egg ti ge bearing is provided for transmitting axial forces, characterized in that the outer ring (50) of this bearing (49/50) is supported against the same end face (13 or 13a) of the housing (1 or 61) against which also the cradle support. (34) is supported. 6. Axial piston machine according to claim 2, characterized in that that the swash plate body (25) is formed from a workpiece and / or the cradle support body (34) is formed from a workpiece and that in each case the material is selected such that on the Sliding surface (32, 33) on which the swash plate body (25) against the cradle support body (34), a material pairing with good sliding properties is given. Shape. 5729 7.78