DE824295C - pump - Google Patents

Description

Pump The invention relates to a pump with a rotating cylinder block, the one arranged in a circle, parallel to one another and supported on a swash plate Having piston, d. H. on a so-called swash plate axial piston pump the control slots connected to the suction and pressure lines in a plane perpendicular to the piston and cylinder axis are arranged. trouble prepare in such axial piston pumps with arranged in a radial plane Control surfaces the repercussions of the control pressure on the cylinder block and thus on the swash plate, which is preferably pivoted to regulate the delivery rate. The control pressure acting on the pressure side causes a due to its eccentricity Tilting moment on the cylinder block, resulting in a gaping and lifting of the cylinder block Tends to bring about from the control surface, reducing losses and conveying inaccuracies develop.

The aim of the invention is to avoid these deficiencies and an axial piston pump to create that works without losses and without any reaction, but simply in the Construction is. According to the invention, this goal is first achieved in that the having control slots connected to the suction or pressure line The pump part is no longer arranged in a stationary manner as before, but as non-rotatable, but The control cylinder is designed to be longitudinally displaceable in the pump housing, the except on the control side also on the rear or side facing away from the control face Counter control surface is connected to the pressure side, the effective surface the counter control surface is slightly larger than that of the pressure-side control surface itself. The control cylinder can also go through a feather in the Sense of pressing against the cylinder block. This spring then has in the essential the task of maintaining the permanent seal between the control surfaces, such a drop in pressure when the pump is stationary or running without delivery to prevent. But occurs when the pump is running on the control surface a pressure acting in the sense of lifting, this is done by the at the same time slightly larger counter-pressure that occurs due to the pressure medium on the counter-control surface is exercised, overcome and rendered harmless.

The control cylinder expediently surrounds part of the pump piston having cylinder blocks with play, the annular space thus formed on the one hand Via one or more radial sections of the control cylinder with its pressure-side Control slot, on the other hand with a pressure chamber arranged behind the counter control surface connected.

The control slot on the pressure side is just like the control slot on the suction side designed in the shape of a ring section. The focus of those lying on the print side From a mathematical point of view, the piston is the center of gravity of the semicircular line on which it is located move. It lies outside the axis of the rotating cylinder and therefore also outside of the counterforce generated via the counter-pressure surface of the control cylinder. Tilting forces therefore act on the control cylinder and the cylinder block. These will expediently made ineffective in that the cylinder block and also the control cylinder are guided on long surfaces within the pump housing. According to the invention in addition, the pressure center of gravity is shifted inwardly because the one or the other on the pressure side Control slot with the annular space between the part of the cylinder block and the control cylinder connecting cutouts extend almost over the entire width of the control slot. This relocation of the center of gravity is supported by the control slot on the suction side in the opposite direction, d. H. is cut open to the outside, axial piston pumps of the type identified at the outset are suitable, according to a further proposal, of the Invention in particular for agricultural machines, namely for cultivation or, Installation in tractors, where they are used to drive a power lift for lifting and lowering Agricultural implements are used, pumps with an axial piston arrangement and, in particular, in one Control surface arranged in the radial plane are characterized by slim, space-saving Construction that makes them ideally suited for this purpose.

In the drawing, the subject matter of the invention is in one embodiment shown. FIG. 1 shows a swash plate axial piston pump in the vertical Longitudinal section,, Fig. 2 is a plan view of the control surface of the control cylinder of the pump on a larger scale, and FIG. 3 shows a vertical longitudinal section through the control cylinder along the line 111-I11 in FIG. 2.

In a substantially cylindrical pump housing 4 is also a cylindrical cylinder block 5 rotatably mounted. The cylinder block has two stages different diameters, of which the stage 5 'of larger diameter in Circles arranged, axially displaceable and each supported by a compression spring 6 Pump pistons loaded in the sense of stepping out of the cylinder block 5? records, while the slimmer part 5 "of the cylinder block serves as a shaft shaft and on its conically tapered end protruding from the pump housing for receiving a drive pulley (pulley or the like) (not shown) is formed. The cylinder block 5 has relatively. long cylindrical guide surfaces, so that, on the one hand, it prevents misalignments in the bores of the pump housing, 4 is secured and on the other hand a long sealing path for about between cylinder blocks and pump housing 4 offers penetrating pressure medium (0l). The one as a shaft formed part 5 "'of the cylinder block 5 is also against (read housing 4 through a Simmerring S sealed. The space 9 behind the Simmerring 8 stands over a channel io 'with the suction line io of the pump in connection, so that approximately between the shaft shaft 5 "and housing, 4 step back pressure medium that has passed through into the suction line can.

Against the free end of the piston 7 receiving part 5 ' of the cylinder block 5 lies at its angle of inclination to the cylinder axis changeable swash plate t t whose movement space is provided by a removable cover 12 is closed. The spring-loaded pistons guided in the cylinder block 5 ' 7 support themselves with their heads on the swash plate so that they rotate of the cylinder block 5 is alternately pushed out of the pump cylinder by the spring 6 (suction stroke) and then again through the swash plate i i into the pump cylinder be pressed in (pressure stroke). The inclination of the swash plate ii determines it the respective delivery rate, which is greater, the more the swash plate is inclined is and vice versa with a horizontal swashplate, d. H. then when swashplate axis and cylinder block axis coincide or run parallel to each other, the same Is zero.

The head of the cylinder block 5 corresponds to the rolling of the swash plate i i curved after a spherical segment during their pivoting movement, the center of which the pivot axis 13 of the swash plate ii forms. To at a tilt of the swashplate To avoid restoring forces from the piston on the disc, which result from it would that the point of application of the piston protruding from the cylinder block closer to the axis of the swash plate, while the point of application of the lower As the piston pushed into the cylinder block becomes longer, the heads are the pistons 7 after the same or at least at least approximately the same spherical radius (Center point i4) rounded like the head of the cylinder block.

The between the two stages 5 ', 5 "different diameter of the The shoulder 15 formed by the cylinder block 5 has the outlet openings in the axial direction channels 16 lying behind the piston 7. The shoulder 15 is supported on the End face 17 of a control cylinder 18, which is connected to the suction line io on the one hand and the pressure line i9 on the other hand communicating control slots 20 and 21 has. Like the cylinder block 5, the control cylinder 18 has a part that is larger Diameter 18 ', in which the control slots 2o and 21 are provided, and one Part 18 "of smaller diameter, which is used to guide the control cylinder 18 in the pump housing is used and the tilt-proof storage is designed because of long. One in the pump housing 4 held and engaging in a corresponding recess of the control cylinder Pin 22 secures the control cylinder against rotation.

The suction slot 21 of the control cylinder 18, which is substantially in the form of an annular cutout Has basic shape, is cut open towards the outside by a wide radial cutout 21 ' (Fig. 2 and 3) and is so with the suction line opening radially into the pump housing 4 io in connection. The pressure slot 2o of the control cylinder, which is usually the has the same ring section-shaped basic shape, is in a similar way to the suction slot, however, opened inwardly by a wide radial cutout 20 'and stands so with the annular space 23 between the shaft 18 ″ of the control cylinder and the shaft shaft 5 ″ of the cylinder block 5 in connection. This annular space 23 widens behind the rear end of the control cylinder 18 and is there with the pressure line i9 in connection. As a result, the rear, i.e. H. that of the control surface 17 opposite Annular surface 24 of the control cylinder 18 also under pressure. The ring surface 24 is dimensioned so that it is slightly larger than the pressure-affected part of the Control surface 17, so that the control cylinder 18 with a certain pressure against the Control surface 15 of the cylinder block is pressed. This contact pressure is reliable avoided that the control cylinder 18 from the cylinder block 5 under the influence of the control pressure lifts, which would lead to delivery inaccuracies and losses. One between the rear shoulder 25 of the thicker part 18 'of the control cylinder on the one hand and the opposite shoulder 26 of the pump housing 4 switched on ring spring 27 supports this pressing of the control cylinder against the cylinder block.

The radial expansion of the pressure slot 20 inward and the expansion of the suction slot 21 to the outside has in addition to the purposes of the connection described above the control slots with suction and pressure lines have another meaning. The control slots form parts of a ring due to the rotation of the cylinder block. The focus of the pressure-side slot is for this reason in the previously known pumps around the inside edge of the control slot. Accordingly, it is applied to the cylinder block a tilting moment exerted whose lever arm is determined by the distance from the control center of gravity is determined by the axis of the cylinder block. Through the inward expansion of the pressure slot, according to the invention, the control focus is now considerable inward, d. H. relocated to the axis of the cylinder block, so that the overturning moment is reduced so much that it can be practically disregarded, but at least reliably thanks to the long guide surfaces of the cylinder block can be received in the pump housing. This also creates a gap, i.e. H. Prevents the control surfaces from lifting off from each other.

As already mentioned, the embodiment shown is only an example Realization of the invention and this is not limited to it, rather are still many other designs and applications are possible, especially with regard to the number of pistons, the housing design, the drive or other purely constructive factors Characteristics. Also, the area of application of the pump is not limited to the examples given limited, it can also be used with advantage for other purposes.

Claims (7)

PATENT CLAIMS: i. Pump with a rotating cylinder block, which has pistons arranged in a circle, parallel to one another and supported on a swash plate, so-called swash plate axial piston pump, in which the control slots connected to the suction line on the one hand and the pressure line on the other hand are arranged in a plane perpendicular to the piston axis characterized in that the pump part having the control slots (2o or 21) is designed as a control cylinder (18) which is longitudinally displaceable in the pump housing (4) and whose counter-control surface (24) facing away from its control face (17) is larger than the pressure-influenced control surface and with the Pressure line (i9) of the pump is in communication. 2. Pump according to claim i, characterized in that the control cylinder (18) engages around part of the piston (7) receiving cylinder block (5) with play and the annular space (23) thus formed on the one hand via one or more radial cutouts (20 ') ) . with the pressure-side control slot (20), on the other hand "with a pressure chamber arranged behind the counter control surface (24) in connection. 3. Pump according to claims i and 2, characterized in that the one or more pressure-side Control slot (20) with the annular space (23) and thereby with the pressure line (19) connecting Cutouts (2ö) extend almost the entire length of the control slot. 4. Pump according to claim 3, characterized in that the suction-side control slot (21) over a radial one extending almost over its entire length Cutout (21 ') is connected to the suction line (io). 5. Pump according to claim i, characterized in that the cylinder block (5) and the control cylinder (18) are guided with long guide surfaces in the pump housing (4) and that out of the pump housing the protruding end (5 ") of the cylinder block (5) is sealed against loss of pressure medium is, wherein the seal (8) receiving annular space (9) with the suction line (io) connected to the pump. 6. Pump according to claim i, characterized in that the Heads of the swash plate, which can preferably be swiveled to regulate the delivery rate (ii) supported piston (7) after a spherical radio; ablm (let are of the distance corresponds to the control plane of the swash plate from its axis (13). 7th Pump according to one of claims i to 6, characterized by its application at agricultural tractors, in particular tractors with pump-operated tractors Lovers of strength for lifting and rope hooking agricultural implements.