DE3911129A1 - Hydraulic axial piston machine - Google Patents

Abstract

The invention relates to rotary hydraulic displacement-type machines. The hydraulic axial piston machine comprises a casing (8) with a cover (9), the said casing (8) accommodating a cylinder block (2) which is mounted on a drive shaft (1) and has pistons with sliding shoes (4, 5) which are accommodated in a cage ring (12) and interact with a swashplate (7) by means of a device for pressing the sliding shoes (4, 5) against the swashplate (3). The device for pressing the sliding shoes (4, 5) against the swashplate is formed by the cage ring (12) and a spring ring (14), between which is fitted an annular insert (13). At least four uniformly distributed projections (15, 16, 17, 18) are formed on the working surface of the spring ring (14) and between these are arranged devices for deforming the spring ring (14). <IMAGE>

Description

The invention relates to rotating hydraulic ver pressing machines, more precisely on hydro-axial piston machines.

The invention can be used as a hydraulic pump or hydromo gate for hydraulic positive displacement engines from various which means of transport, for example from in the country used harvesting machines, road construction machines and Ä. are applied.

A hydraulic axial piston machine (DE-A 19 19 575), which contains a housing with a cover, in the inside of which is housed a cylinder block which Has pistons with sliding shoes, which are in a box figring and using a swashplate a device for pressing the sliding shoes against the Interacting swashplate. The pressing device represents a central spring on a drive shaft le sits in the cylinder block and attaches it to the housing cover presses. The sliding shoes are from the central spring the swashplate surface over a cage ring and pressed a spherical socket.

However, the pressing force of the cylinder block is on the cover always the pressing force of the support surfaces of the Slip shoes on the swashplate the same, while for Pressing the latter requires a smaller force is so that the excessive pressing force is the friction the shoes on the swashplate increased and reinforced leads to shoe wear.

A hydraulic axial piston machine is also known (US-A 44 44 093), which ent a housing with a lid who holds an entry and an exit channel for has the operating fluid, being inside the called housing a cylinder block is housed, which is mounted on a drive shaft and piston with sliding shoes contained in a cage ring below are brought and with a swash plate by means of a Device for pressing the sliding shoes against the slope disc cooperate, this device the cage  ring and a spring washer, between which a ring location is appropriate, and facilities for deformity tion of the spring washer.

However, the pressure forces with which each of the sliding shoes attached to the swash plate is pressed equal to each other, d. H. the sliding shoes of the Pistons representing the high pressure zone and the low pressure zone pass through, have the same pressing forces. This ent there are increased friction losses when rubbing the slide shoes on the swashplate and will be reliable speed of the hydraulic machine is reduced.

The invention has for its object a Hydro-axial piston machine with such a construction the device for pressing the sliding shoes against the Creating swashplate which would allow an optimal location of the point of attack of the entire An press force and choose an optimal size of the same, thus the friction losses when rubbing the slide shoes on the swash plate could be reduced.

The task is solved in that a hydro-axial piston machine with a housing a lid that contains an entry and a Has outlet channel for the operating fluid, where a cylinder block inside the housing is housed, which is mounted on a drive shaft is and has pistons with sliding shoes, which in one Cage ring are housed and with a swash plate by means of a device for pressing on the sliding shoes cooperate on the swash plate, this Vorrich tion the cage ring and a spring ring, between which a ring insert is attached, and facilities for Deformation of the spring ring represents, according to the invention at least four on the working surface of the spring washer evenly distributed projections are executed, zwi the devices for deforming the spring ring are arranged.

Two spring ring projections are expediently located on a line that defines the entry and exit  channel connects.

It is recommended to use the deformity facilities tion of the spring washer in the form of screws lead at an angle to the cage ring and have at their ends a conical surface that the Fe the ring surface is assigned.

The ring insert is expediently made from a Made of sliding material.

The total pressing force in the device for on pressing of the sliding shoes on the swashplate is carried out a redistribution (with readjustment) of the spring washer mation reduced by the deformation devices, those in the spaces of at least four on the spring ring-shaped projections lie with which he is is based on the ring insert. The resultant of the total pressing force is increased by the required amount moved to the low pressure zone, the pressure force size of each of the sliding shoes optimally selected can be, for the sliding shoes that deal with the piston is in the high pressure zone, minimal large, but for those in the low pressure zone above lying.

Thanks to this reduction in total pressing force and the choice of the optimal point of attack the same becomes the friction of the sliding shoes on the slope disc reduced.

The arrangement of two of four spring ring projections on the inlet and outlet channels of the Hydro machine connecting line is required for that in the controlled hydraulic machine the swashplate Change their angle of inclination arranged in pegs that could also be on the entry-exit line lie. This allows the Deformation size of the spring ring two of the four Fe derring projections on the entry-exit line of the Arrange the hydro machine.

The devices for deforming the spring washer are executed in the form of screws that the after  regulation of its deformation size in different Ab allow cuts to be made differently, and for more precise control of this deformation quantity are the screws in the swashplate under a win kel attached while on the spring ring surface adjacent conical surfaces of these screws a conical surface che. The desired setting will be precise speed namely achieved in that during a screw the rotation of the face of this Screw around the thread pitch amount to the shit ben surface normal direction due to the oblique Screw position reduced according to this inclined position becomes.

In addition, to reduce the friction ver luste in the device for pressing the slide shoes on the swashplate, the ring insert from a slide made of material.

The invention is based on a conc th embodiment of the same with reference to FIG the drawings explained; in this shows

Figure 1 is a schematic representation of the hydraulic axial piston machine in longitudinal section.

Fig. 2 shows the section along line II-II of Fig. 1 at an angle of 90 ° to the shaft axis arranged swash plate.

The hydraulic axial piston machine ( FIG. 1) contains a drive shaft 1 , on which a cylinder block 2 is mounted, a swash plate 3 and sliding shoes 4, 5 of pistons 6, 7 sliding over the same. The cylinder block 2 is rigidly connected to the drive shaft 1 , which is housed in a housing 8 , which has a cover 9 . In the cylinder block 2 , a compression spring 10 is mounted on the drive shaft 1 , through which the cylinder block 2 is pressed onto a distribution surface 11 of the cover 9 . The sliding blocks 4, 5 with the piston 6, 7 are held by a pressing device on the swash plate 3, which consists of a cage ring 12, one attached to the same ring insert 13 and a spring ring 14 with the gefertig th of a sliding ring insert 13 is in contact. On the working surface of the spring ring 14 , at least four equally distributed projections 15, 16, 17 and 18 ( Fig. 2) are executed, between which devices for deforming the spring ring 14 are arranged. The two before jumps 15 and 17 are on an inlet channel 19 ( Fig. 1) and an outlet channel 20 (indicated in the figure by a dotted line) connecting line, which for adjusting the spring ring deformation size and thus also the pressing force in the inter mediate between Projections 15, 16, 17 and 18 ( Fig. 2) of this spring washer is required. The devices for defor mation of the spring ring 14 are in the form of screws 21, 22, 23 and 24 , which are attached in the swash plate 3 ( Fig. 1) at an angle to the cage ring 12 and have a conical surface 25 at their ends is assigned to the surface of the spring ring 14 .

The arrangement of the screws 21, 22, 23 and 24 at an angle to the cage ring makes it possible to constructively simplify the devices for deforming the spring ring 14 and readjust the same with greater accuracy.

The hydro axial piston machine works in the following manner. When the drive shaft 1 ( FIG. 1) rotates with the cylinder block 2 , the pistons 6, 7 , by sliding over the swash plate 3 with their sliding shoes 4, 5 , perform a reciprocating movement in the cylinders, as a result of which the operating fluid from the inlet channel 18 is sucked and conveyed into the outlet channel 19 .

The amount of deformation of the spring ring 14 in the zone where the pistons 7 deliver the operating fluid is regulated by the screws 21 and 22 to the minimum possible level, while it is set in the suction zone at such a height that the pressing force of the sliding shoes 4 of the pistons 6 in this zone slightly exceeds the force required to overcome frictional forces, piston inertial forces and the force which acts on the pistons 6 as a result of the vacuum created during the suction process.

In this way, the total pressing force of the sliding shoes 4, 5 on the swash plate 3 may be chosen to be minimal, while the coordinate of the point of contact of the resultant of the total pressing force is shifted towards the low-pressure zone, as a result of which the friction losses when rubbing the sliding shoes 4, 5 on the swash plate 3 can be considerably reduced.

The ring insert 13 is made of a sliding material, two friction surfaces being formed, which reduces the relative sliding speed by two, reduces the power losses and reduces the heat dissipation in the assembled components, and allows the speed parameters of the hydraulic machine to be improved.

Claims (4)

1. Hydro-axial piston machine, which contains a housing ( 8 ) with a cover ( 9 ) which has an inlet channel ( 19 ) and an outlet channel ( 20 ) for the operating fluid, with inside this housing ( 8 ) a cylinder block ( 2 ) is housed, which is mounted on a drive shaft ( 1 ) and has pistons with slide shoes ( 4, 5 ) which are housed in a cage ring ( 12 ) and with a swash plate ( 3 ) by means of a device for pressing the slide shoes ( 4, 5 ) cooperate on the swash plate ( 3 ), this device before the cage ring ( 12 ) and a spring ring ( 14 ), between which a ring insert ( 13 ) is attached, as well as devices for deforming the spring ring ( 14 ) , characterized in that on the working surface of the spring ring ( 14 ) at least four evenly distributed projections ( 15, 16, 17, 18 ) are executed, between which the devices for de-forming the spring ring ( 14 ) are arranged. 2. Hydro-axial piston machine according to claim 1, characterized in that two projections ( 15, 17 ) of the spring ring ( 14 ) lie on the line connecting the inlet channel ( 19 ) and the outlet channel ( 20 ). 3. Hydro-axial piston machine according to claim 1, characterized in that the Einrichtun gene for deforming the spring ring ( 14 ) in the form of screws ( 21, 22, 23, 24 ) are executed which are at an angle to the cage ring ( 12 ) and have at their ends a conical surface ( 25 ) which is assigned to the surface of the spring ring ( 14 ). 4. Hydro-axial piston machine according to claim 1, characterized in that the Ringeinla ge ( 13 ) is made of a sliding material.