UA21741U - Gear type hydro-machine - Google Patents

Abstract

A gear type hydro-machine has a cover and housing in cylindrical bores of which external toothed pinions with journals installed in slider bearings are arranged with formation of cavities of high and low pressure. The journals are placed at one side of pinions and arranged as bearing sealing bushings conjugated to each other in planes and installed with possibility of axial displacement. The slider bearings placed at the other side of pinions are arranged as antifriction bushings fixed in the housing, at that in bearing sealing bushings at side opposite to the ends of pinions at outer mounting surfaces cylindrical bores are provided, on those with possibility of motion in axial direction equipped with gaskets circular bushings-supports are installed, those are conjugated to each other in planes as well, with formation between respective ends of the bearing sealing bushings and respective ends of the circular thrust bushings of tightening chambers connected to the high pressure cavity. The cylindrical bores of the bearing sealing bushings are arranged eccentric with respect to plane of symmetry of hydro-machine going through elongated axes of symmetry of the pinion journals and displaced to the side of the low pressure cavity.

Description

Description of the invention

The useful model refers to the devices of machine-building hydraulics. A gear hydraulic machine is known, 2 comprising a housing with rear and front end caps. External engagement gears with trunnions, end gap compensators coupled to the gears and a compression chamber are installed in the cylindrical bores of the housing. The latter, on the non-working side of one of the compensators, is made in the form of a system of annular grooves concentric with the holes for the pinions of the gears. The channels in the end caps connect in pairs with each other the cavities formed by the borings in the end caps under the trunnions and the end surfaces of the trunnions, and the inlet and outlet channels in the rear end cover |11.

The disadvantage of the well-known hydraulic machine is its rather complex design, as well as the large area of the internal cavity, which is under the influence of the high pressure of the working fluid. This causes the seals to squeeze out and fail, and can also cause the housing to fail.

A gear hydraulic machine is also known, containing a housing, in the cylindrical bores of which are placed, with 712 formation of high and low pressure cavities, gears of external engagement with trunnions installed in sliding bearings. The latter are made in the form of bearing sealing bushings, located on both sides of the gears and connected to each other by planes. Bearing sealing bushings, located on one side of the gear ends, are installed with the possibility of axial movement and are pressed by their working ends to the gear ends by the pressure of the working fluid coming from the high-pressure cavity. Movable in the axial direction, the bearing sealing bushings are made folded in such a way that on the outer cylindrical seating surfaces of each of them, on the side opposite to their working ends, cylindrical grooves are made. On the latter, with their internal cylindrical seating surfaces, and in the cylindrical bores of the body, with their external seating surfaces, also with the possibility of axial movement, ring bushings-stops are installed, coupled to each other by planes coinciding with the planes of coupling of the bushings, with 22 formation at the junction between the non-working ends of the movable bushings and the corresponding ends of the ring bushings-stops - about the compression chamber connected to the high-pressure cavity. Ring bushings - stop! on the inner and outer, as well as movable and fixed bearing bushings on the outer cylindrical seating surfaces are equipped with seals, and on the outer cylindrical seating surfaces of the fixed bearing sealing bushings, on the side opposite to the location of the gears, before sealing, unloading grooves are made, -- 30 connected with low pressure cavity |21. "Her

The last technical solution is the closest to the proposed one in terms of technical essence and characteristics and is accepted as a prototype. But it is not free from flaws either. In particular, the installation of gear trunnions in the bearing and sealing bushings on both sides of the gears increases overall dimensions, and a significant part of the internal surfaces of the housing is affected by the high pressure of the working fluid, which forces the housing to be strengthened to prevent its destruction. high school

In addition, in all gear hydraulic machines known to us, there is a pressure in the areas of the end clearances of the gears, which decreases according to a certain law as the distance from the high-pressure cavity moves away from the maximum value, equal to the pressure of the fluid in the discharge cavity, to the pressure of the working fluid in the suction cavity (low " pressure). Therefore, the symmetrical compression of the bearing sealing bushings to the ends of the gears leads to their asymmetric specific load and misalignment of the bearing sealing bushings, which causes a loss of the volumetric supply of the pump and premature wear of the sliding bearings |ZI, (41.

With" The technical problem, the solution of which this useful model is aimed at, is the elimination of the mentioned shortcomings, namely: the creation of a more compact design of the gear hydraulic machine with reduced volume and mechanical losses due to the rational end sealing of the gears and the further increase of 45 degrees of localization of the zone of influence of high pressure on internal cavities. The set task is achieved in a gear hydraulic machine containing a cover and a body, in the cylindrical bores of which are placed, with the formation of cavities of high and low pressure, gears of external engagement with trunnions installed in sliding bearings, and the latter, located on one side of the gears, 7 are made in the form of bearing sealing bushings, connected to each other along the planes and installed with the possibility of axial movement, and the sliding bearings, located on the other side of the gears, are made in the form of anti-friction bushings fixed in the housing, and in the bearing sealing bushings from the side,

From the opposite ends of the gears, on the outer seating surfaces, cylindrical grooves are made, on which ring bushings-stops equipped with seals are movably installed in the axial direction, also coupled to each other in planes, with the formation between the corresponding ends of the bearing sealing bushings and the corresponding ends of the ring bushings-stops compression chambers connected to the high-pressure cavity. c According to the useful model, the cylindrical grooves of the bearing sealing bushings are made eccentric with respect to the plane of symmetry of the hydraulic machine, which passes through the longitudinal axes of symmetry of the trunnions of the gears and are shifted towards the low-pressure cavity.

Due to the eccentric location of the bearing sealing bushings, the points of application of 60 net forces from the influence of the pressure of the working fluid on the end of the grooves of these bushings will also be shifted towards the location of the low-pressure cavity in the machine body. This makes it possible to optimize the gaps between the ends of the gears and, thereby, to minimize leaks of the working fluid, as well as to limit, in comparison with the prototype, the size of the internal surface of the hydraulic machine, which is under the influence of high pressure.

At the same time, it is advisable to make the eccentric displacements of the cylindrical grooves of the bearing sealing bushings the same and to arrange them symmetrically relative to each other along the transverse axes of the pinion gears.

In addition, to further increase the degree of sealing of the joints in the ends of the gears, in the cylindrical bores of the housing, with the possibility of movement along them, with its working surface adjacent to the ends of the gears, at least on one of their sides, and resting on the bottom of the cylindrical bores of the housing, an eight-shaped a plate made of anti-friction material, with holes for studs.

In addition, the inner end of the cover is equipped with additional, shifted towards the low-pressure cavity, similar to the cylindrical grooves of the bearing sealing bushings, cylindrical recesses, in which, with the possibility of longitudinal movement on the eccentric cylindrical grooves of the bearing 7/0 Sealing bushings, stop bushings are installed. This contributes to the displacement of the effect of the countervailing forces of hydraulic compression from the stop bushings through the bearing sealing bushings towards the low pressure cavity and, thereby, further optimization of the clearances between the ends of the gears. In turn, this allows you to further minimize leaks of the working fluid and the size of the internal surface of the hydraulic machine, which is affected by the high pressure of the working fluid.

In order to improve the operating conditions of the stop bushings, in particular, to eliminate the possibility of their wedging and further increase the degree of tightness, the end of each bearing sealing bush from the side of the cylindrical groove under the stop bushing is equipped with an end groove connected to the high-pressure cavity, the inner diameter of which coincides with the diameter of the cylindrical groove , and the outer one exceeds the diameter of the groove under the open end, made in the form of a ring of elastomeric material, and a protective gasket, sealing 2 o bushing-stop, and in the mentioned end groove, a conical metal ring is installed with the possibility of longitudinal movement, the base of which overlaps the groove for sealing the bush - stop

In addition, on the back end of the gears on the side of the eight-shaped plate around the holes for the trunnions, annular drainage grooves are made, connected by grooves to the holes for the trunnions and to the low-pressure cavity of the hydraulic machine, the width of which is equal to (0.2-0.5) H, where H - the height of the gear tooth, and the depth - (0.2-0.8) mm.

The useful model is explained by the drawings, where: Fig. 1 shows the longitudinal section of the gear hydraulic machine; t

Fig. 2 - section AA from Fig. 1;

Fig. 3 - section B-B from Fig. 1;

Fig. 4 modification of the machine with recesses for bushings-stops made on the inner face of the cover, "- longitudinal section;

Fig. 5 - section B-B from Fig. 4. -

Gear hydraulic machine includes body 1 and cover 2. Mk are placed in the cylindrical bores of body 1. leading 4 and known 5 gears of external engagement. The pins 6, 7 of the latter are installed in the sliding bearings, and the pins located on one side of the gears 4, 5, for example on the side of the cover 2, are made in the form of jointed bearing sealing bushings 10, 11 along the planes 8, 9. The latter are installed with the possibility of axial movement, both along the pins 6, 7, and in the cylindrical bores of the housing 1.

Cylindrical grooves 14, 15 are made on the ends 12, 13 of the bearing sealing bushings 10, 11 opposite to the gears 4, 5. The gears 4, 5 are installed in the cylindrical borings of the body 1 in such a way that they form cavities of high 16 and low 17 pressure of the working fluid. "

On the cylindrical grooves 14, 15, also with the possibility of axial movement along them under the influence of pressure tv) s of the working fluid coming through the channels 18 from the high-pressure cavity 16, bushings-stops 19 are installed, which . are coupled to each other along the planes 20, 21. Bushings-stops 19 are equipped with seals on the surfaces of the grooves 14, y? 15. Seals may consist of sealing 22 and protective rings 23 installed in grooves 24 or corresponding cuffs (not shown). Rings 22 can be made of an elastomeric material, for example, rubber, and protective rings 23 - of plastic, for example, Teflon. Co. Sliding bearings trunnions 6, 7 of gears 4, 5, located on the other side of the gears, for example, on the side of the housing 1, made in the form of immovably fixed, for example, by pressing, in the holes 25, 26 of the housing - 1, thin-walled bushings 27, 28 from anti-friction material. -I On the side of the bushings 27, 28 between the bottom of the cylindrical bores of the housing 1 and the ends of the gears 4, 5, with the abutment 5or to their ends of the working surface 29, an eight-shaped plate ZO with holes 31 for the pins 6, 7 and the gears 4, 5 is installed. made of anti-friction material. The hydraulic machine can contain two eight-shaped plates 30 on both ends of the gears. At the same time, one of the plates 30 will be installed on the bottom 32 of the cylindrical bores of the housing 1, and the second will be pressed by the ends of the bearing sealing sleeves 10, 11 to the ends of the gears 4, 5.

Cylindrical grooves 14, 15 of the bearing sealing bushings 10, 11, on which bushings-stops 19 are installed, are made eccentric with respect to the longitudinal plane of symmetry of the hydraulic machine, which passes through the longitudinal axes of symmetry of the trunnions 6, 7 and are shifted towards the cavity of low pressure 17. The mentioned eccentric displacements of the cylindrical grooves 14, 15 of the bearing sealing bushings 10, 11 can be made the same, for example, within 1 to 5 mm for gear hydraulic machines with working volumes up to 50 cm./rev., and because they are located symmetrically relative to one along the transverse axes of pin b, 7 gears 4, 5.

The execution of cylindrical grooves 14, 15 eccentrically relative to the longitudinal plane of symmetry of the hydraulic machine allows you to shift the direction of influence of the acting forces of hydraulic compression from the bushings-stops 19 through the bearing sealing bushings 10 and 11 closer to the cavity of the low pressure 17 of the working fluid of the housing 1 and, thus, to optimize the clearances between gear ends. This contributes to the minimization of leaks of the working fluid, as well as limiting, in comparison with the prototype, the size of the internal surface of the hydraulic machine from the influence of the high pressure of the working fluid.

The end face 33 of each bearing sealing sleeve 10 and 11 on the side of the stop sleeve 19 is equipped with an end groove 34, which is connected by channels 18 to the high-pressure cavity 16 of the hydraulic machine. The size of the inner diameter of the end groove 34 is the same as the diameter of the cylindrical grooves 14, 15, and the size of its outer diameter exceeds the size of the diameter of the groove 24 for sealing the bush-stop 19. In the end groove 34, a conical metal ring 35 with a cross section in the form of a right triangle is installed . The base 36 of the conical metal ring 35 covers the groove 24 for sealing the bushing-stop 19.

On the non-working surface 37 of the eight-shaped plate 30, around the holes 31 for the pins 6, 7, annular drainage grooves 38 are made, connected by grooves 39 with the holes 31 for the pins 6, 7 and with the low-pressure cavity 17 70 of the hydraulic machine.

The depth of the annular drainage grooves 38 and grooves 39 can be 0.2...0.8 mm, and their width is selected by known methods, based on the standard size of the gear hydraulic machine and the amount of leaks.

In the modification of the gear hydraulic machine shown in figure 4, the inner end 40 of the cover 2 is equipped with additional cylindrical grooves 41, which are shifted towards the low pressure cavity 17, similarly to the 7/5 cylindrical grooves 14, 15 of the bearing sealing bushings 10, 11. In the grooves 41 with the possibility of movement along them, on the eccentric cylindrical grooves 14, 15 of the bearing sealing bushings 10, 11, the mentioned bushings-stops 19 are installed.

Gear hydraulic machine works like this. When it is used as a pump, the working fluid is transferred from the cavity of low 17 pressure to the cavity of high 16 2o pressure by the rotation of the gears 4, 5 in the interdental depressions. From the cavity 16 through the channels 18, the pressure is transmitted to the end grooves 34 under the bushings-stops 19.

Under the influence of the pressure of the working fluid, the bushings-stops 19 and the bearing sealing bushings 10, 11 are compressed in opposite directions. In this case, the bushings-stops 19 are pressed against the end face 40 of the cover 2 or against the bottom of the cylindrical grooves 41 of the cover 2, and the bushings 10, 11 are pressed with their ends either against the eight-shaped plate ZO, which, in turn, is pressed against the ends of the gears 4, 5, sealing joints between the ends of the gears 4, 5 and the working surfaces 29 of the eight-shaped plates 30 or directly to the ends of the gears.

Since the cylindrical grooves 14, 15 of the bushings 10, 11 are made eccentrically relative to the longitudinal plane of symmetry t of the hydraulic machine, the points of application of the net forces due to the pressure of the working fluid on the end of the cylindrical grooves 14 and 15 of the bearing sealing bushings 10 and 11 will also be shifted towards the location in the housing 1 cavity of low pressure 17, which contributes to the optimization of the end gaps without which there would be no jamming - from the octagonal plates 30. To eliminate the destruction of the sealing 22 and protective 23 rings of the seals of the bushings-stops 19, as well as to eliminate the jamming of the latter, in the end grooves 34, conical - metal rings 35, which, under the action of the pressure of the working fluid, move along the inner diameter of the end groove M 34. At the same time, the latter with their bases 36 cover the grooves 24, and, therefore, the sealing 22 and protective 23 rings. --

The presence of drainage grooves 38 around the holes 31 under the pins 6, 7 of the gears 4, 5, connected by grooves 39 with the holes 31 and with the low-pressure cavity 17 contributes to the effective removal of leaks in the low-pressure cavity 17 of the working fluid.

The proposed gear hydraulic machine makes it possible to eliminate wedging and uneven wear of bearing bushings and octagonal plates, to significantly reduce the internal flow of the working fluid from the "cavity of high 16 pressure to the cavity of low 17 pressure, to carry out effective drainage of leaks of the working fluid pl") at the same time as ensuring long-term operation at high pressures of the working fluid due to a greater degree of localization of the zone of pressure influence on the internal cavities of the body than in the prototype machine. Conducted;" the tests confirmed the high efficiency of the proposed machine and the achievement of the technical result in all the mentioned aspects.

Sources:

GI 1. 5О1656164А1, РО4С2/14, publ. 15.06.91 2. SH74118С2, РО4С 2/04, publ. 17.10.05 - 3. T.M.Bashta. Volumetric pumps and hydraulic motors of hydraulic systems. Moscow, "Mashinostroenie", - I 1974, p. 325. 4. T.M. Bashta. Machine-building hydraulics. State scientific and technical publishing house in machine-building literature, Moscow, 1963, p. 231.

Claims (6)

- The formula of the invention 1. A gear hydraulic machine containing a cover and a body, in the cylindrical bores of which are placed, with the formation of high and low pressure cavities, gears of external engagement with trunnions installed in sliding bearings, and the latter are located on one side of the gears, made in the form of bearing seals bushings connected to each other along the planes and installed with the possibility of axial movement, and the sliding bearings, located on the other side of the gears, are made in the form of anti-friction bushings fixed in the housing, and in the bearing sealing bushings on the side opposite to the ends of the gears, on the outer seating surfaces cylindrical grooves are made, on which ring bushings-stops equipped with seals are installed movably in the axial direction, also coupled to each other in planes, with the formation between the corresponding ends of the bearing sealing bushings and the corresponding ends of the ring bushings-stops of compression chambers, connected to the cavity high-pressure system, which is distinguished by the fact that the cylindrical grooves of the bearing sealing bushings are made eccentric with respect to the plane of symmetry of the hydraulic machine, which passes through the longitudinal axes of symmetry of the pinion gears and are shifted towards the low-pressure cavity. 2. The machine according to claim 1, which differs in that the eccentric displacements of the cylindrical grooves of the bearing sealing bushings are made the same and are located symmetrically relative to each other along the transverse axes of the pinion gears. C. The machine according to claim 1, which differs in that in the cylindrical bores of the housing, with the possibility of movement along them, with its working surface adjacent to the ends of the gears on at least one of their sides and resting on the bottom of the cylindrical bores of the housing, an eight-shaped plate made of anti-friction material is installed /o material, with holes for studs. 4. The machine according to claim 1, which is characterized by the fact that the inner end of the cover is equipped with additional, shifted towards the low pressure cavity, similar to the cylindrical grooves of the bearing sealing bushings, cylindrical recesses, in which, with the possibility of longitudinal movement on the eccentric cylindrical grooves of the bearing sealing bushings, bushings-stops are installed. 5. The machine according to claim 1, which differs in that the end of each bearing sealing sleeve on the side of the cylindrical groove under the stop sleeve is equipped with an end groove connected to the high-pressure cavity, the inner diameter of which coincides with the diameter of the cylindrical groove, and the outer diameter exceeds the diameter of the groove under open end, made in the form of a ring made of elastomer material and a protective gasket, sealing the bushing-stop, and in the mentioned end groove, a conical metal ring with the possibility of 2o longitudinal movement is installed, the base of which covers the groove for sealing the bushing-stop. 6. The machine according to claim 3, which differs in that on the back end of the gears on the side of the eight-shaped plate around the holes for the trunnions, annular drainage grooves are made, connected by grooves with the holes for the trunnions and with the low-pressure cavity of the hydraulic machine, the width of which is equal to (0.2-0 ,5).H, where H is the height of the gear tooth, and the depth is (0.2-0.8) mm. From "- " in "- p - and? ime) - -and sh» - 60 b5