DE1279470B - Thrust drive for longitudinal displacement of the cylinder block of a swash plate axial piston pump - Google Patents

Description

Thrust drive for the longitudinal displacement of the cylinder block of a swash plate axial piston pump The invention relates to a slide-controlled thrust drive for longitudinal displacement of the non-rotating cylinder block of a swash plate axial piston pump to change the delivery rate as a function of the delivery pressure acting on the control slide against the pressure of a spring that moves the cylinder block in the direction of increasing the Flow rate presses.

In a known pump of this type, it is considered to be disadvantageous that especially with small changes in pressure, the delivery rate of the pump only after a relatively long delay time can be changed.

In the case of a slide-controlled thrust drive, this task is the one at the beginning mentioned type according to the invention achieved in that one on the cylinder block in the direction increasing the delivery rate of attacking reaction pistons in a guide of the pump housing Is longitudinally displaceable, the free end of which is exposed to the delivery pressure in the pump outlet is. In an advantageous development of the invention, the reaction flask has a Hydraulic fluid line to the control slide arranged in the cylinder block.

In contrast to the known pump, the hydraulic fluid must therefore do not pass through the control slide before changing the position of the cylinder block is effected. By using the reaction flask according to the invention can apply a relatively large force directly to the cylinder block be transmitted so that the spring force which the cylinder block in the direction of the Increasing the delivery rate pushes, can be chosen relatively low because the spring itself is only required for start-up processes or the like. Therefore also the required control force is relatively low, with which by the The thrust drive of the cylinder block can be moved to the position of minimum power can change the delivery rate of the pump quickly even with small changes in pressure to be able to.

An exemplary embodiment of the invention is to be described in more detail with reference to the drawing explained. It shows F i g. 1 shows a partial section through an axial piston pump with a reaction flask according to the invention, FIG. 2 and 3 show a cross section due to the sliding control slide in the pump housing with two different Positions of the control spool.

As shown in FIG. 1, the reaction piston 82 is mounted in a guide 61 of the pump housing 9 so that it can be displaced longitudinally so that its free end is exposed to the delivery pressure in the pump outlet 8.

The cylinder block 20 is urged to the right by the spring 60 in the direction of increasing the delivery rate. The control slide 65 is held with a locking ring 68 in a central opening on the cylinder block 20, as shown in FIGS. 2 and 3 can be seen. A tubular extension 69, acting as a thrust drive piston, of the control slide 65 is guided in a longitudinally displaceable manner in a thrust drive cylinder 57 fixed to the housing. A spring 78, which is arranged in the tubular extension 69, presses the slide piston 70 of the control slide 65 to the left.

The reaction piston 82 is tubular in order to create a pressure fluid line 83 to the control slide 65 arranged in the cylinder block 20. The reaction piston 82 is pressed by a spring 86 (FIG. 1) against a tubular fitting piece 85 at the front end of the control slide 65. Since the free end of the reaction piston 82 is exposed to the delivery pressure in the pump outlet 8 , the tubular reaction piston is always in sealing contact with the fitting piece 85 , even if the delivery pressure in the pump outlet 8 is equal to zero.

On the basis of FIG. 2 and 3, the operation of the thrust drive according to the invention will be explained in more detail. F i g. 2 shows the left position of the control piston 70, from which the delivery rate of the pump can be increased by moving the cylinder block 20 to the right. F i g. 3 shows the right position of the control piston 70, from which the delivery rate of the pump can be reduced by moving the cylinder block 20 to the left.

In the case of the in FIG. Position of the spool 70 shown Figure 2 is a connecting conduit 71, 88 opens for pressure fluid between the cylinder chamber 73 of the push drive 57, 69 and the low pressure chamber of the pump. Therefore, the cylinder block 20 can be shifted to the right in the direction of increasing the delivery rate in the event of a pressure increase in the pump outlet 8 or, if necessary, solely by the force exerted by the spring 60.

In the case of the in FIG. 3, the position of the slide piston 70 shown is shifted to the right against the force exerted by the spring 78 and the pressure in the cylinder chamber 73 of the thrust drive 57, 69. This displacement of the spool 70 can, for. B. occur when a pressure of 140 atmospheres occurs in the pump outlet 8. In this case, pressure fluid flows under high pressure from the pump outlet 8 through the pressure fluid line 83 in the reaction piston 82 into the annular chamber 71 and through the channel 72 into the thrust drive cylinder chamber 73. This shifts the cylinder block to the left and thus reduces the delivery rate of the pump.

The cylinder block 20 can therefore be moved very quickly in both directions to increase or decrease the delivery rate, even with small changes in pressure, with mainly only hydraulic forces being decisive, compared to which the forces are slight when the pump is in normal operation existing springs are exercised.

Claims (2)

Claims: 1. Slide-controlled thrust drive for longitudinal displacement of the non-rotating cylinder block of a swash plate axial piston pump to change the delivery rate depending on the delivery pressure acting on the control slide against the pressure of a spring which presses the cylinder block in the direction of increasing the delivery rate, characterized in that a reaction piston (82) acting on the cylinder block (20) in the direction of increasing the delivery rate is longitudinally displaceable in a guide of the pump housing (9), the free end of which is exposed to the delivery pressure in the pump outlet (8). 2. Thrust drive according to claim 1, characterized in that the reaction piston (82) has a pressure fluid line (83) to the control slide (65) arranged in the cylinder block (20). Documents considered: French Patent Specifications Nos. 1 202 109, 899 754; U.S. Patent No. 2,439,879.