UA44827C2 - GEAR HYDRAULIC MACHINE - Google Patents

Abstract

In a pinion hydromachine having in intersecting borings of one of housing details pinions 1 and 2 with pins 3 and 4, placed in slide bearings 5, 6, 7 and 8 of the housing details 9 and 10, to the ends of pinions 1 and 2 compensators of end gaps 16 and 17 are adjacent, at the opposite sides of those compensation chambers 18 and 19 are provided, those are tightened with elastic elements 20 separating the low pressure zone from the high pressure zone 22. Each compensator of end gaps 16 or 17 has a through discharge aperture 23 connecting the high pressure zone 22 to the volume 24 restricted by the pinion toothings, and permanently connecting the high pressure zone 22 to the compensation chamber 18 or 19.

Description

Description of the invention

The invention belongs to the field of hydraulic machines, in particular to gear hydraulic machines, which can be used in hydraulic systems of tractors, both general and industrial purpose, excavators, agricultural, road construction and other machines.

A gear hydraulic machine is known, which involves a casing closed with covers, in the cylindrical bores of which are located with the formation of cavities of high and low pressure, two gears of external engagement, their ends are adjacent to compensators of end gaps, each of which, on the opposite surface from the ends of the gears, has a compensating chamber , made in the form of a groove, sealed by an elastic element, and separating the high-pressure zone from the low-pressure zone, two small through-flow unloading channels connecting the compensating chamber with the spaces formed by the teeth of the gears engaging.

Thus, during the rotation of the gears, their teeth, which are engaged, form a space, which, as the gears rotate, decreases in volume, and as a result, the pressure of the working fluid in this space increases sharply 19 and its jump-like growth occurs and the same increase in pressure in the compensating chambers, which turns into a pulsating one, which leads to premature failure of the elastic elements sealing the compensating chambers, reducing the durability and reliability of the hydraulic machine as a whole.

The basis of the invention is the task of creating a gear hydraulic machine, in which there would be a more effective quenching of a sudden increase in pressure in the space limited by the teeth of the gears entering the mesh, which increases the durability and reliability of the operation of the elastic elements and the entire hydraulic machine as a whole.

The task is solved by the fact that in a well-known gear hydraulic machine, involving at least two body parts, in the cylindrical bores of one of which are located, with the formation of high and low pressure cavities, gears with trunnions, which are installed in the sliding bearings of the body parts, compensators with end clearances, which have through relief channels, connecting spaces limited by the teeth of gears that engage, with compensating chambers, on their back surfaces, sealed with elastic elements, according to the invention, in each end gap compensator, a through relief channel is made permanently connecting the compensation chamber with the high-pressure cavity.

Thus, as a result of the constant connection of the high-pressure zone, with the help of a through-unloading channel both with the compensation chamber and with the space limited by the gear teeth entering into the Ha, a more effective suppression of the sudden increase in pressure in this space occurs, and the pulsation is removed pressure in the compensating chamber. This makes it possible to increase the durability and reliability of the elastic element sealing the compensation chamber, as well as the reliability and durability of the entire hydraulic machine.

Zo In the following, the invention is explained with an example of its specific implementation and drawings, where: Fig. 1 - M shows a longitudinal section of the hydraulic machine along the axes of the gears; Fig. 2 shows a section along A-A from Fig. 1; Fig. 3 shows a section along B-B from Fig. 1. "

The gear hydraulic machine contains gears 1 and 2, made together with trunnions З and 4. З

Pins C and 4 gears 1 and 2 are located in sliding bearings made in the form of anti-friction strips 5, 6, 7 and 8 pressed into body parts 9 and 10. Body parts 9 and 10 are centered with pins

From" 11, are connected with bolts 12 and sealed with a cuff 13, see Fig. 1. In the housing part 9, the input channel 14 and the output channel 15 are made, see Fig. 2 and 3.

Compensators of end clearances 16 and 17 are adjacent to the ends of gears 1 and 2, see Fig. 1, which have on their 49 surfaces, facing the body parts 9 and 10, compensation chambers 18 and 19, sealed by elastic t-elements 20, separating the low pressure zone 21 from the high pressure zone 22, see fig. Z. "" In each compensator of end gaps 16 or 17, on the side of the output channel 15, a through unloading channel 23 is made, which connects the spaces 24, limited by the teeth of the gears entering the engagement

Co. 1 and 2, with a high pressure zone 22, as well as with compensating chambers 18 and 19, in addition, during the operation of the hydraulic machine 20, in any position of the meshing teeth of gears 1 and 2, each compensating chamber 18 or 19 is always connected to the high-pressure zone 22 by means of a through-flow discharge channel 23.

A gear hydraulic machine, for example, in pump mode works like this.

When the drive gear 1 rotates from the drive motor (not shown), the driven gear 29 engaged with it rotates. The working fluid exits and exits the engagement to form a discharge and through the input channel 14

GF) enters the interdental cavities, fills them and is transferred to the output channel 15, where the teeth entering the engagement push it into the hydraulic system. The volume of liquid squeezed by the engaging teeth on the gears 1 and 2 is reduced and through the through discharge channels 23 is squeezed into both the high pressure zone 22 and the compensating chambers 18 and 19, while each through discharge channel 23 60 is constantly connects the high-pressure zone 22 with the compensating chamber 18 or 19, depending on the position of the meshing teeth of the gears 1 and 2, i.e., the through discharge channel 23 is never completely covered by the end of the tooth. This prevents a sudden increase in pressure in the space 24, and also increases the durability and reliability of the elastic element 20, due to the removal of pressure pulsations in the compensation chambers 18 and 19. b5

Claims (1)

The formula of the invention Gear hydraulic machine containing at least two body parts, in the cylindrical bores of one of the 2 of which are located with the formation of high and low pressure cavities, gears with trunnions installed in the sliding bearings of the body parts, compensators of end gaps, which have through unloading channels connecting the spaces bounded by the teeth of gears that engage with compensating chambers on their reverse surfaces, sealed with elastic elements, which is characterized by the fact that in each compensator of end gaps, a through discharge channel is made permanently connecting the compensating chamber with a high-pressure cavity. se that o u se (ee) "I "I - a t» t» (ee) ko and ko bo b5