DE908448C - Swash plate pump - Google Patents

Description

Swash plate pump For swash plate pumps with a stationary The cylinder drum must have the swash plate inclination for the purpose of adjusting the delivery rate be changeable. For this reason you have the swash plate rotatable on one Mounted pivot segment, which in turn is designed so that it is in the housing rotatable about an axis which intersects the pump shaft and is perpendicular to the same is.

In the previously known versions, the pivot bearing received the In the form of a support bracket, on the center pin of which the swash plate was mounted. Of the The support bracket itself had two opposing pins, which were in corresponding holes the housing wall were stored. There are also versions known in which the Pivot bearing has the shape of a hemisphere, which is in a corresponding dome-shaped Deepening of the inner housing face and similar to the one mentioned above Support bracket is mounted in the housing by means of two bearing journals and is guided in such a way that it can only be moved in the intended pivoting direction.

The more recent development of these swash plate pumps, especially at Their application in oil gears as a pump and motor part, strives for ever higher specific Services of this transmission, including primarily an increase in the oil pressure is suitable for these transmissions. However, this shows up in the case of the ones listed above Swashplate pivot bearing constructions - Significant difficulties, which consist in the fact that the swash plate acting piston forces are disproportionately large and thus the available standing bearing surfaces of the pivot bearing journal are no longer sufficient. aside from that If the pivot bearing journals in the housing are not sufficiently rigid, which results in an elasticity occurring in the direction of the acting piston forces, which is associated with 'unpleasant noise development.

Another disadvantage of the above-mentioned forms of swashplate mounting or the swash plate pivot bearing with housing consists in that the housing in the vicinity of the swash plate for the purpose of machining the housing or assembly in split Execution made «must be grounded. This results in an inexpedient, not elegant assembly of two such pumps, such as the z. B. in the case of oil gears the case is.

The invention is now based on the object of a housing with a pivot bearing to be trained so that these parts can cope with the desired increase in pressure, rigid and simple in their form, furthermore easy to manufacture and the requirements for convenient assembly and control options. In addition, the new design of the housing with pivot bearing a practical and elegant assembly of two Allow swash plate pumps to form an oil transmission.

According to the invention this object has been achieved in that the housing the swash plate pump is provided with a cross hole, the center of the axis of which the Pump shaft axis intersects, is perpendicular to it and with the desired pivot axis of the swash plate swivel bearing collapses and the diameter of which is so large that the pivot segment can be inserted through the side opening of the transverse bore and thereby the housing can remain undivided. The pivot bearing itself gets according to the invention the shape of a cylinder segment, the end faces of which are so large Roller bearings are equipped that the same with its outer ring directly in the large cross hole can be accommodated. The advantages of this swivel bearing housing design are the fact that the large cross hole in the housing as well as the pivot bearing are simple and is to be produced precisely and the load-bearing capacity compared to the previously known, essential enlarged roller bearings is sufficient to apply the desired oil pressures can. In addition, the side flange cover of the transverse bore has a bearing hub provided, in which an adjusting lever is guided, the pointer-like in a radial Engages groove of the swivel segment. It is free to drill the cross hole all the way through that Carry out housing and to both sides of the housing with a flange cover provided or the transverse bore only with an opening on one side of the housing to equip, with which a flange cover can be saved. The cross hole can also in the case of the use of two roller bearings, they only cover the area at all the two housing walls extend. Furthermore, the transverse bore in the area of the flange cover be easily expanded to accommodate a bearing ring. Also can do that The housing and the swivel segment are made of light metal and are attached to the sliding or Rolling surfaces of the swash plate swivel segment with a cast steel insert, a sprayed, electroplated or shrunk layer be provided with a particularly hard and wear-resistant material.

The storage of the swivel segment in the large cross hole by means of Roller bearing is just one of several possibilities. It is mainly through the The intended use of the swash plate pump in question is determined. One can distinguish between high pressure pumps and high pressure pumps and these again in two groups subdivide, namely those in which the delivery rate at any time, i.e. also below Load, which must be freely variable, and those which only apply to a certain delivery rate must be adjustable, so where no adjustment is necessary during operation is.

When designing the swash plate pump as adjustable under load The high-pressure pump is the bearing of the swivel segment by means of the already mentioned made two large side roller bearings.

When designing the swash plate pump as adjustable under load Naturally, a high pressure pump is also a high degree of rigidity or vibration resistance necessary. In the above-mentioned embodiment with roller bearings, the swash plate swivel segment forms with regard to the static forces, a supporting beam with two support points and one in between attacking load. The roller bearings (support points) are next to the Swashplate and must therefore have a distance that is at least greater than the largest swash plate diameter is. The elasticity of this girder, i.e. H. the size of the elastic deflection under the influence of the piston forces depends but from the third power of the interpolation point distance. Hence the goal move the bases as close as possible.

According to the invention this object is achieved in that instead of the two roller bearings two needle bearings are arranged so that the bearing needles directly between the wall of the housing bore and the cylindrical back roll off the swash plate swivel segment. To work properly this To enable rolling bearings, the two ends of the rolling arches are through the swivel segment penetrating channel connected. The bearing needles thereby form a closed one Chain. Since the bearing needles are returned through the segment body, can the two camps are moved much closer together, and with that is the necessary Rigidity of the pivot bearing segment guaranteed.

When designing the swash plate pump as a high or maximum pressure pump, in which only an adjustability of the inclination angle of the swash plate is required and therefore the swash plate pivot bearing cannot be moved under load needs, it is finally proposed that the swash plate pivot segment with a perform such a radius that it fits directly into the transverse bore and thus the swash plate swivel segment with its entire rear surface in the housing for power transmission is used.

The possibility of combining two swash plate pumps into one oil gear is given by giving the pumps a common housing, which has two parallel cross bores. Result from this arrangement there are other advantages that can be particularly effective when the two pumps are of the same size, since in this case the mean total piston pressure of the two swash plates) werl: e is exactly the same size, and if one is simultaneous Adjustment of the pump and motor part is made. In this case you can the adjustability of the swash plate swivel segments even without the use of special ones Reach rolling bearings. According to the invention it is proposed for this purpose that the two swash plate swivel segments by directly juxtaposing the cross bores with their cylindrical Bring back in line contact, so that they are without additional load on the housing slightly roll against each other and adjust with the swashplate inclination. With this arrangement it is easily possible to place the two in the lateral Cross-bore flange cover in mounted swash plate segment adjustment shafts in their secure correct position by toothed segments.

Another possible embodiment of the invention is that the two cylindrical backs of the swash plate pivot segments are not directly touching loads, but two cylindrical rollers mounted in the housing intervenes. The common adjustment of the swivel segments is thereby made that both swivel segments get a narrow toothing on the circumference, into which a gear attached to one of the two bearing bolts of the rolling rollers is carried out at the same time engages and thus made an adjustment by rotating the bearing pin can be. Another advantage of this arrangement is that the adjustment angle the adjustment shaft is significantly enlarged by the reduction gear swivel segment and so the adjustment is more sensitive and easier. The intermediary cylindrical rollers are freely rotatable on the bearing pin. The mutual support the swivel segments can also be used when the swivel segments are independent should be pivotable from each other. According to the invention this is achieved by that the cylindrical rollers mounted on the two bolts in length at least three individual roles can be divided. According to the individual pressure roller lengths the pivot segments have such ring-shaped, equidistant to the cylinder jacket Turnings a few tenths of a millimeter deep on that one and the same roll comes into contact with only one swivel segment at a time and is therefore independent can rotate freely on the bearing pin from the other swivel segment. On every bearing pin So there are roles that only work with one, and roles that only work with the other Swivel segment come into contact. Both bearing pins are rotatably mounted in the housing and each provided with a tooth segment. Each bearing pin stands over its tooth segment and a corresponding counter-toothing of the swivel segment cylinder jacket with flat this so in connection that in each case by turning this bearing pin the relevant Swivel segment can be swiveled as desired. The bearing bolts are with theirs End of the gear housing and can od there with a lever. Like. Operated will.

The property of the transverse hole, with its entire diameter on the side to penetrate the housing wall has the advantage that it is easy to manufacture, easy due to the closed diameter at the flange point of the flange cover is to be measured, the swash plate pivot bearing a precise guidance in the intended There is a swivel plane and it enables it, despite being easy to manufacture and assemble of the pump to make the housing undivided.

In Figs. I to 8, the subject of the invention is different Embodiments explained. In the embodiment according to Fig. I and a form the Housing i and the end shield a the outer shell for in their mode of operation known items of the swash plate engine. These are the drive shaft 3 with the cylinder drum q driven by it. and swash plate 5, the latter drives the piston 7 by means of the connecting rod 6 mounted on its circumference. The swash plate 5 is mounted in the pivot segment 8, which in turn is in a large transverse bore of the housing is guided, the axis of which coincides with the pivot axis of the swash plate and whose diameter is so large that that with its outer cylindrical circumference swash plate swiveling segment directly mounted therein with the lateral one removed Flange cover 9 can be easily installed or removed. The swash plate pivot bearing lies on the housing i over a large area and in the most favorable manner in terms of liquidity and is firstly by the cylindrical bearing per se and secondly by the Lateral parallel guidance between the housing wall and the flange cover9 exactly guided in the intended pivot plane. The adjustment of the swivel segment 8 can on the shaft io via a pointer-like lever ii take place, with its bent end into a side cutout 12 of the swash plate swivel segment 8 intervenes.

In the embodiment according to FIGS. 3 and d. the swash plate segment 8 is designed as a roller bearing. It is shown that the swash plate pivot bearing is provided on both sides with at least one bearing needle ring which rolls in the housing bore. In order to make this possible, the two ends of the raceways limited to a certain angle are each connected via a short-circuit path, in the present example as a shaft 21 running transversely through the swiveling segment body. The bearing needles 13 can therefore unroll without any mutual interference.

According to FIG. 5, the swash plate swivel segment 8 can also be configured by means of which form a full circle, are stored in the transverse bore of the housing. For this purpose, the swash plate swivel segment 8 has one on each side annular or disc-shaped projection 14, which is connected to the swash plate pivot segment 8 consists of one piece or in a suitable annular groove of the swash plate swivel segment 8 can be screwed in. The outer races for the rollers 13 are directly in pushed the large cross hole. The adjustment shaft is advantageous in this embodiment via an externally toothed disc with the one provided with an internally cut hole annular extension 14 connected, so that here too the flange cover 9 easily can be removed.

Figs. 6 to 8 show some examples of how the swash plate pivot segments 8 can be advantageously installed in a common housing.

In the embodiment according to FIG. 6, the cylindrical rear sides roll the swash plate pivot segments 8 directly with line contact on one another from, with the consequence that the frictional resistance counteracting an adjustment can easily be reduced to a minimum.

In the embodiment according to FIG. 7, the pivot segments are supported on their cylindrical rear sides with the interposition of two cylindrical rollers 15 in the manner of a prism against one another. While the lower bearing pin i5a is fixed in the housing i, the upper bearing pin in the housing i can be rotated and is provided with a gearwheel 16 which simultaneously engages the two counter-teeth 17 of the pivoting segments 8. The two pivot segments can be adjusted on the lever 18.

Finally, in FIG. 8, one of two combined in one housing Swash plate pumps existing oil gears in the new design of the housing and the swash plate pivot segment resulting in a practical and beautiful design shown. Another possibility with two or more than two housed in one housing Swashplate engines consists in having multiple swashplate swivel segments advantageously housed in a single correspondingly longer transverse bore and are optionally connected to one another or even consist of one piece.

Claims (7)

PATENT CLAIMS: i. Swash plate pump, characterized in that the housing in the area of the swiveling swash plate is at right angles to the drive shaft running transverse bore of such a diameter that the swash plate pivot segment stored in it and inserted into or removed from the housing through it can. 2. swash plate pump according to claim i, characterized in that the swash plate pivot segment outside has the shape of a cylinder section whose radius of curvature is exactly that corresponds to the transverse bore and is stored directly in the transverse bore. 3. Swash plate pump according to claim i, characterized in that the swash plate swivel segment has ring-shaped or disk-shaped bearing lugs on both sides of the swashplate, which lie in the area of the transverse bore where it penetrates the housing walls and thereby forms a closed circle. , 4. Ocular disk pump according to claim i, characterized in that the storage of the swash plate pivot segment in the housing transverse bore takes place on at least two roller tracks, the roller track to> less than 36o ° circumferential angle and the ends of the rolling path through a connecting channel are short-circuited in the swash plate swivel segment or the inserted rollers form a closed chain. 5. Swash plate pump according to claims i to d., Thereby characterized in that the arrangement of two swash plate pumps in a common Housing (oil gear) the cross bores are parallel and so close together that that the cylindrically shaped rear sides of the swash plate pivot segments roll directly on top of each other while touching lines. 6. Swash plate pump after Claims i to 4, characterized in that with the arrangement of two swash plate pumps the two outer cylindrical surfaces of the swash plate swivel segments in a common housing (oil gear) roll over one or two intermediate rollers, the bearing shaft one of the rollers is provided with a toothed wheel which is in corresponding toothing of the two swivel segments engages, and the adjustment of the oblique discs through Rotation of the bearing pin is carried out. 7. swash plate pump according to claim i to 6, characterized in that both bearing pins of the intermediate roles are rotatably mounted in the housing and provided with gears, one of which Gear is connected to a swash plate pivoting segment and the intermediate rollers on each of the bearing pins divided in length into at least three individual roles are, wherein the pivot segments are annular recesses on their cylindrical circumference own. B. swash plate pump according to claim z to 7, characterized in that that with oil gears, which consist of two or more swash plate pump units in consist of a common housing, several swash plate pivot segments each are housed in a common transverse bore and optionally from one Pieces exist or are connected to each other.