SU1416748A1 - Piston of axial-flow piston hydraulic machine - Google Patents

Abstract

The invention allows to increase the efficiency of the hydraulic machine by controlling the flow rate of the fluid to the discharge chamber of the hydrostatic bearing. The central rod 9. Is made of ma-. a material having a linear expansion coefficient greater than the material of the body 1 and the piston. At the end of the rod there is a cylinder 4 with a throttling screw groove with the possibility of movement in the stages of boring 5 of smaller diameter. The piston end is closed by a cover 7 with an opening 8 connected to the discharge chamber 1I of the hydrostatic support via a step, a larger diameter bore 6, a throttle and axial channels 13, 14 in the support and the ball head. With an increase in the working fluid t-ry, the body, cylinder and rod are simultaneously heated. As a result, the cylinder and the rod begin to slide into the bore 5, increasing the length of the groove. This increases its drag coefficient and pressure drop, and also reduces the flow of working fluid through the cylinder. The cylinder material has a linear expansion coefficient, equal to the linear expansion coefficient of the body, in order to exclude the possibility of the cylinder being jammed in the bore 5 when the temperature is changed. 3 silt, / S (L

Description

12

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The invention relates to hydraulic displacement volumetric machines and, in particular, to multi-cylinder axial-piston hydraulic machines with a rotating cylinder block and an inclined supporting disk.

The purpose of the invention is to increase the efficiency of hydraulic machines by adjusting the flow rate to the discharge chamber of the hydrostatic support.

FIG. The piston of the hydraulic machine is shown; FIG. 2 shows the position of the throttles at a temperature value of the working fluid corresponding to the lower limit of use of the hydraulic machine J in FIG. 3 - the same, the upper limit of the temperature regime.

The piston consists of the housing 1, a ball-connected shoe 2, mounted on the spherical head 3, and an adjustable throttle, made in the form of a cylinder 4, located in the bore 5 of a smaller diameter.

meters,

In the bore b of a larger diameter, at the end of the piston there is a bolt 7 with a hole 8 and a rod 9, at the end of which there is a cylinder 4 with a screw groove 10 on its lateral surface. The shoe 2 has a hydrostatic support, made on its face surface, in the form of an unloading chamber 11 communicated with the working cavity 12 of the hydraulic machine through an opening 8 in, a bore 6 of larger diameter, screwed to the anchor 10, and axial channels 13 and 14 in the head and shoe 2

The shoe 2 rests on an inclined washer 15. A cylinder 4 with a helical groove 10 is installed in a bore 5 of smaller diameter with the possibility of axial movement, and the rod 9 is made of a material whose linear expansion coefficient is larger than that of the material of the piston body and the cylinder.

The piston works as follows.

The working fluid from the working cavity 12 of the hydraulic machine through the hole 8 of the bolt 7, the bore 6 of larger diameter, the helical groove 10, the axial channels 13 and 14 enters the discharge chamber 11.

The squeezing force starts to act on the shoe 2 and it floats on the oil film. At the same time

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five

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five

0 5

0 5

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The end gap between the shoe 2 and the supporting surface of the inclined washer 15, which makes it possible to significantly reduce the coefficient of friction in the pair - the shoe - inclined washer. When starting and operating the hydraulic machine at the lower limit of its operating temperature range, the working fluid has a very high viscosity coefficient, which leads to a reduction in the flow rate of the working fluid through the screw groove 10. At the same time, the flow balance through the screw groove 10 and the end clearance between the shoe 2 and the support the surface of the inclined washer 15. At this point, the cylinder 4 is maximally extended from the bore 5 of smaller diameter and the screw groove 10 has the smallest length.

When the temperature of the working fluid rises, the body 1, cylinder 4 and rod - 9 are simultaneously heated. The coefficient of linear expansion -. The material of the rod 9 is larger than the material of the housing J and the cylinder 4, therefore cylinder 4, due to the difference in linear dimensions of the housing 1 of the piston and the rod 9, begins to slide into the boring 5 of smaller diameter, increasing the cai-biM length of the helical groove Yu, consequently, increasing its coefficient of resistance to differential pressure, as well as reducing the flow of working fluid through it.

The material of the cylinder 4 must have a linear expansion coefficient equal to the linear expansion coefficient of the housing 1, which excludes the possibility of the cylinder 4 becoming jammed in a bore of a smaller diameter as the temperature changes.

In this way, regulation of the flow rate of the fluid to the discharge chamber of the hydrostatic bearing is ensured, depending on the temperature of the fluid; | Improving the work of support and increasing the efficiency of hydraulic machines ..

Claims (1)

Invention Formula An axial piston hydraulic machine piston, comprising a housing with an inner stepped bore and a ball head on which a hydrostatic support is articulated with an extension of the loading chamber, and the end of the piston is closed with a hole and a central rod, the end of which 3141 installed in the boring steps of a smaller diameter, adjacent to the ball head, and made in the form of a cylinder with: a throttling screw groove, moreover. different 6748 so that, in order to increase the efficiency of the hydraulic machine by controlling the flow rate of the fluid to the discharge chamber, the cylinder is installed with the possibility of the possibility of axial mixing in the boring stages of smaller diameter, and the rod is made of a material having a linear expansion coefficient greater than the material of the piston body and the cylinder. 3 / c. Yu fpue.Z 75 g & c / aJ