SU1359475A1 - Axial-piston controllable pump - Google Patents

Abstract

The invention makes it possible to reduce the control power in the maximum pressure modes by reducing the flow rate. Each piston 16 and 17 has an axial throttling hole and is located respectively in the working cavities of the hydraulic cylinders 3 and 4 of the control. When the pressure rises to the maximum allowable value, the working fluid under pressure enters the piston 17, which through the spring 6 causes the piston 8 to move and, therefore, the regulator 1. The flow rate required to maintain the pressure in the hydraulic cylinder 4 under the piston 17 is determined by the size its choking hole. 1 il. / ". ,, 7ff ate 00 SP with P1 JS X

Description

The invention relates to engineering hydraulics and can be used in hydraulic drive.

The purpose of the invention is to reduce the control power in the maximum pressure modes by reducing the flow rate.

The drawing shows an axial piston variable pump.

An axial piston variable pump comprises a housing (not shown), a drive shaft (not shown), a cylinder block with plungers (not shown), a regulator I connected to the plungers, a pump supply control system including a power supply 2, two hydraulic cylinders 3 and 4 controls with zero position springs 5 and 6, pistons 7 and 8, throttles distributor 9, two pressure limiting valves 10 and 11, the bottom plates and 12 cavities of which are connected to the power lines of the pump, and the valve cavities 14 and 15 - with working cavities 3 and 4 controls. Each hydro. The control cylinder is equipped with an additional piston 16 and 17 with a throttling hole.

The axial piston variable pump in the feed control mode operates as follows.

When moving the spool of the distributor 9, the working fluid, injected by the power source 2, is supplied to the working cavity of the control hydraulic cylinder 3, and the working cavity of the control hydraulic cylinder 4 communicates with the drain. The resulting pressure differential in the cavity of the cylinders 3 and 4, by moving the regulator 1, changes the pump flow. In this case, the regulatory body 1 through the mechanical

The feedback returns the circuits connected by hydrolines to the separator 9. to the initial position and the supply of the working fluid to the hydraulic cylinder 3 is stopped. Thus the amount of movement of the regulating

with a power point and drain through a drose a resettlement distributor connected by mechanical feedback with an adjustable pump organ and two valves

Body 1 is in strict accordance with the pressure limitation, sub valve with the movement of the distributor 9.

When pressure is applied in one of the power lines to the maximum allowable value, the pressure of the fluid overcomes the spring force of the valve 1I and the working fluid enters the hydraulic cylinder 4 and the piston 17 through the springs

On the 6th, the piston 8 and, therefore, the regulator 1 forces the pump to move. It moves until the pump feed drops to the value needed to compensate for leaks and maintain pressure under the piston 17. The flow rate is necessary to maintain the pressure in the hydraulic cylinder 4, under the piston 17, is determined by the size of its throttling hole. Taking into account that its area can be chosen significantly less than the area of the flow area in the throttling distributor 9, the required flow rate, respectively, will also be less. The power consumption by the pump in this mode will be minimal.

: When the pressure in the loaded power hydroline of the pump drops below the set pressure of valve 1I, it closes and the pressure in the control hydraulic cylinder 4 becomes equal to the drain pressure. Since the pump head hydrolines through the valve 9 are in communication with the working cavity of the hydraulic cylinder 3 of the control, the working element returns to its position; the output corresponds to the specified displacement of the valve of the distributor 9.

Claims (1)

Invention Formula An axial piston variable pump comprising a housing, a drive shaft, a cylinder block with plungers, a pump regulator connected to the plungers, a pump feed control system including a power source, two control hydraulic cylinders with zero position springs, pistons housed in hydraulic cylinders to form workers power supply and drainage through a throttling valve connected by mechanical feedback to the adjustable pump body, and two valves 5 The cavities of which are connected to the pump power hydrolines and the over valve valves are connected to the working cavities of the control hydraulic cylinders, characterized in that, in order to reduce the control power in maximum pressure modes by reducing the flow rate, each control hydraulic cylinder is provided with an additional 313.594754 a piston having an axial throttling throttling distributor and a large orifice and located in the working valve cavities of the limiting valves of the control hydraulic cylinder with no pressure through the throttling capability of a constant communication hole.