SU1691553A1 - Gear-type hydraulic machine - Google Patents

Abstract

The invention relates to mechanical engineering, in particular to gear hydraulic machines, and can be used in hydraulic systems of machines for various purposes, including automobiles, tractors, combines, in agricultural and road-building machines, etc. The purpose of the invention is to reduce metal consumption, improve heat dissipation, increase reliability and durability. The external gear gear hydromachine comprises a housing, in cylindrical bores of which are placed to form a high cavity (PV) and a low pressure cavity (PN) cavity (Ø) 1 external gear with trunnions 2 mounted in slide bearings 3, coupled with Ø 1 compensators ( K) 4 end gaps with elastic cuffs 5, installed in samples (B), made from the PV and LN pressure with the formation of radial jumpers (RP) and connecting jumper (SP) to distinguish between high and low pressure zones. At the same time, the depth B on the side of the PN pressure is made greater than the depth B, which is on the side of the PV pressure, ensuring that the center of gravity K 4 is aligned with its geometrical axis (GO); moreover, the volume B, which is located on the side of the MO, is equal to the RP volume, and the mass of the joint venture is equal to the mass of the volume, located up to Г О К 4 of the middle part B, made from the side of the PV pressure. 1 hp ff, 3 ill.

Description

The invention relates to mechanical engineering, in particular to gear hydraulic machines.

The purpose of the invention is to reduce metal consumption, improve heat dissipation, increase reliability and durability.

In FIG. 1 shows a pumping unit of a hydraulic machine (without a housing and an end cap); in FIG. 2 - end compensator, section; in FIG. 3 - the same view from the side of the elastic cuffs.

The external gear hydraulic machine comprises a housing (not shown), in the cylindrical bores (not shown) of which are placed with the formation of a high and low pressure cavity (not shown), gears 1 of the external gear with axles 2 mounted in sliding bearings 3, coupled with gears 1 expansion joints 4 end gaps with elastic cuffs 5 installed in the sample 6 of the compensators 4, made on the side of the high pressure cavity, and between the sample 7 on the side of the low pressure cavity formed radial the tabs 8 and the jumper 9 to distinguish between high and low pressure zones, while the depth of the sample 7 from the side of the low pressure cavity is made greater than the depth of the sample 6 made from the side of the high pressure cavity to ensure that the center of gravity of the compensator 4 is aligned with its geometric axis 10, except Moreover, the volume of the sample 7, located on the side of the low-pressure cavity, is equal to the volume of the radial jumpers 8, and the mass of the connecting jumper 9 is equal to the mass of the volume of the middle part of the sample 6, located to the geometric axis 10 of the compensator, made from the side of the high-pressure cavity.

Gear hydraulic machine in pump mode operates as follows.

When the gears 1 rotate, the working fluid is captured by the teeth of the gears 1 and is transferred from the suction cavity to the injection cavity in the interdental cavities. At the same time, the working fluid enters the pressure chambers formed by elastic cuffs 5, compensators 4 and cylindrical bores and presses the compressors 4 to the ends of the gears 1. Moreover, the sampling depth 7 from the low pressure side is greater than the sampling depth 6 made from the high pressure side, allows you to combine the center of gravity of the compensator 4 with its geometric axis 10, which ensures a uniform fit of the end surfaces of the compensators 4 to the ends of the gears 1, increases reliability and duty eternity of work and leads to a reduction of metal.

Claims (2)

Claim 1. A gear machine of external gearing, comprising a housing, in the cylindrical bores of which, with the formation of a high and low pressure cavity, gears of external gear with axles installed in sliding bearings are placed, end gap compensators coupled to gears with elastic cuffs installed in samples made from the side cavities of high and low pressure with the formation of radial bridges and a connecting jumper to distinguish between zones of high and low pressure, distinguishing by the fact that, to reduce metal consumption, improve heat removal, improve the reliability and longevity, the sampling depth of the cavity from the low pressure is made greater than the sample depth, formed from the high pressure cavity ensuring alignment of center of gravity compensator, with its geometric axis. 2, the hydraulic machine according to claim 1, which entails that the sample volume of the compensator located on the side of the low-pressure cavity is equal to the volume of the radial jumpers, and the mass of the connecting bridge is equal to the mass of the volume of the middle part of the sample located to the geometric axis of the compensator made from the side of the high pressure cavity.