RU2014488C1 - Duplex axial-piston hydraulic machine - Google Patents

Abstract

FIELD: positive-displacement hydraulic machines. SUBSTANCE: mounted in housing and fastening flange of hydraulic machine is input shaft with drive gear of transfer reduction gear. Drive gear is engageable with driven gears of reduction gear which transmit torque to pumping units. Each of pumping units has inclined cylinder block located on side of fastening flange and distributor. Distributor ports are in communication with suction chamber of hydraulic machine. Booster pump impeller is mounted on the drive shaft in fastening flange chamber. Fastening flange chamber and suction chamber of the hydraulic machine are brought in communication. Booster pump impeller rotating simultaneously with drive shaft creates excessive pressure in suction chamber of hydraulic machine. Working fluid under this pressure is first sucked in chambers of inclined hydraulic cylinder blocks and then it is compressed and delivered under pressure to the pressure mains of hydraulic machine. Each cylinder block has regulator of angle of inclination of block mounted in fastening flange. EFFECT: enhanced reliability. 1 dwg

Description

 The invention relates to volumetric hydraulic machines with a rotating cylinder block.

 Axial-piston hydraulic machines are known in which booster pumps are used to provide excessive pressure (pressurization of the working fluid) at the suction.

 In these hydraulic machines, the booster pump is installed in a special housing end-to-end to the housing of the pumping units on the suction side. The pump is driven from a specially output end of the input shaft.

 The presence of a special housing for the booster pump and extension of the input shaft increase the dimensions and weight of the hydraulic machine, thereby reducing the specific performance of the hydraulic machine.

 The prototype of the proposed solution for the most signs selected double axial piston hydraulic machine containing a housing with a cover in the form of a mounting flange, in which on the drive shaft there are pumping units with inclined cylinder blocks, connected by a gearbox, and a booster pump.

 A disadvantage of the known hydraulic machine is the lack of the ability to create a back-up pressure on the suction, which does not allow to increase the rotation frequency of the input shaft, thereby limiting the performance of the hydraulic machine, reducing its specific performance.

 The aim of the invention is to increase the specific performance of the hydraulic machine.

 To this end, in a double axial piston hydraulic machine, comprising a housing with a cover in the form of a mounting flange, in which swing units with inclined cylinder blocks are located on the drive shaft, connected to each other by a gearbox, and a booster pump, the mounting flange is located on the side of the inclined blocks , a bore is made in it, in which a booster pump is connected to the suction cavities on the drive shaft from the side of the block distributors.

 A positive effect of the proposed solution is created due to the fact that the booster pump is located on the input shaft in the suction zone of both pumping units of the twin hydraulic machines. No need to grow the drive shaft. The mounting flange, in addition to its main function, also performs the function of a booster pump housing, which eliminates the need for an additional housing.

 The drawing shows a dual axial piston hydraulic machine.

 In the housing 1 and the mounting flange 2 of the hydraulic machine on the rolling bearings 3 and 4, an input shaft 5 is installed with a drive gear 6 of the transfer gearbox. The gear 6 interacts with two driven gears 7 of the gearbox, which transmit torque to the pumping units 8. Each of the pumping units 8 contains an inclined cylinder block 9 located on the side of the mounting flange 9, and a distributor 10, the windows 11 of which communicate with the suction cavity 12 of the hydraulic machine. On the drive shaft 5 in the cavity 13 of the mounting flange 2 is installed the impeller 14 of the booster pump 15. The cavities 13, 12 and 11 are interconnected. The regulators 16 of the angle of inclination of the block 9 are located in the flange 2.

 During operation of the hydraulic machine, rotation from the drive shaft 5 is transmitted through gears 6 and 7 to the pumping units 8. Simultaneously with the shaft 5, the impeller 14 of the booster pump 15 mounted on it rotates, creating excessive pressure (back-up of the working fluid) in the suction cavity 12 of the hydraulic machine. Under this pressure, the working fluid enters the cavity of the hydraulic cylinders of the inclined blocks 9, is compressed, and under pressure is pumped through channels 17 into the pressure lines (not shown). The fluid injection stream created by each pumping unit 8 can be used independently or combined with a second stream. The presence of excess pressure in the suction zone of the pumping units increases the speed of the pumping units and, consequently, the performance of the hydraulic machine. The mounting flange 2 performs several additional functions: support for the front bearing 3 of the drive shaft 5, the housing for accommodating the regulators 16, the housing of the booster pump. The combination of these functions allows you to rationally use the thickness of the mounting flange 2, to eliminate the need for an additional housing for the booster pump. As a result, the dimensions and weight are reduced in comparison with the known hydraulic machines. The performance of the hydraulic machine per unit mass is improving - specific indicators.

Claims (1)

 DOUBLE AXIAL-PISTON HYDRAULIC MACHINE, comprising a housing with a cover in the form of a mounting flange in which swinging units with inclined cylinder blocks are connected to each other by means of a gearbox and a booster pump, characterized in that in order to increase the specific performance of the hydraulic machine, the mounting flange is located on the side of the inclined blocks, a bore is made in it, in which a booster pump connected to the suction cavities is installed on the drive shaft from the side of the block distributors.

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