SU387136A1 - AXIAL PISTON PUMP - Google Patents

Description

I

The invention relates to axial-piston pumps with a fixed cylinder block and valve distribution and, in particular, an HiacocoB with an adjustable displacement, which is changed by communicating the working cylinders with the drain during the discharge stroke of the pistons through the overflow ports by changing the phase of closing of the skull ports.

Axial piston pumps are known with a non-stationary cylinder block and valve distribution, whose displacement varies by changing the phase of closing the overflow ports communicating the working cylinders with the drain. Also known is a pump, whose bypass windows communicate working cylinders with additional axial grooves. In the latter, locking plungers are placed, and depending on the change in the axial position of the plungers in the grooves, the closing phase of the bypass ports during the injection stroke of the pistons changes.

In the proposed pump, the capacity control system is simplified by the fact that each of the additional bore holes in the cylinder block is communicated with a corresponding cylinder next to the bypass channels. The position of the plungers in the grooves is simultaneously changed by the same amount.

The drawing shows the proposed pump, a longitudinal section.

In the casing / pump, a block of cylinders 2 is fixed, in cylinder bores 3 of which there are working pistons 4, which interact with a rotating inclined washer 5. Cylinder bores 3 are communicated by side suction ports a with a cavity L of suction.

The exit ports of the bore 3 are closed by spring-loaded pressure valves 6 placed in the cavity B of the injection.

In block 2, additional axial grooves 7 are made, in which the locking plungers 8 are placed, rigidly connected to the central disk 9 loaded with spring 10. The disk 9 is rigidly connected to the rod // hydraulic cylinder 12 of the control. In cylinders 5 and in

Additional grooves 7 are made by a series of bores 13 and 14, respectively, reported by bypass channels b.

The working cavity of the control cylinder 12 is in communication with the working cavity B of the slide valve 15 of the capacity. The groove in the regulator is in communication with the cavity B of the injection, and the groove r is connected with the cavity A of the suction. On the plunger 16 of the left regulator acts

discharge pressure, and to the right is the spring 17.

Depending on the position of the plunger 16 of the regulator, the pressure in the cavity of the control hydraulic cylinder 12 varies, and the force generated by this pressure is compared with the force of the spring 10. The pressure of the piston, plunger 8 and plunger 8 depends on the pressure level.

With increasing discharge pressure, the piston 11, the disk 9 and the plungers 8 are mixed to the right, opening one or another number of bores. As a result, during the injection of the pistons 4, the liquid is transferred to the drain through bores 13, channels b, bores 14 of the grooves 7 until the last open bore 1.3 is blocked by the end face of the piston 4. Then the liquid is forced out through the valves 16 into the injection cavity B.

To ensure that the displacement of the pump is close to stepless, the same name bores 14 in different bore 7

can be mixed one relative to another.

Other blending phases of overlapping grooves are possible.

Subject invention

An axial piston pump with a fixed cylinder-in block and valve distribution, adjustable by changing the phase of bypassing the fluid to the drain during the injection stroke of the pistons, characterized in that, in order to simplify the performance control system, additional grooves and rows of radial cylinders are made parallel to the operating cylinders the by-pass channels for the coupling of the flow holes with the cylinders, and in the flow holes there is a displacement of displaced translationally plungers, the position of which in the flow holes determines the opening of the -final year channels and hence the start phase injection into each cylinder.