SU613294A1 - Liquid rate-of-flow regulator - Google Patents

Description

(54) LIQUID FLOW REGULATOR

The invention relates to a hydraulic drive and hydraulic automatic systems and can be used, for example, in metal-cutting machines, boom-lift, road, agricultural machines, ka, to the element that provides the stabilization of the hydraulic motor operating speeds.

Nowadays, in those cases when it is required to provide a constant flow rate of fluid, for example, to maintain the speed of rotation of the hydraulic motor, at its variable load (pressure), the flow regulator in which the pressure differential is installed in the power line. On the flow meter. The choke in the bottom of the spring-loaded spool, the pai6o4ero window is adjusted so that the specified flow rate remains constant, regardless of the pressure fluctuations in the inlet and outlet hydrolines li.

The disadvantage of this design is the presence of precise mating surfaces, which increases the sensitivity to contamination of the working fluid, complicates the technology of manufacture and repair, as well as the design of the regulator and increases its cost. Friction in the spool pair and the presence of a spring impair dynamic operation (the presence of delay and discharge flow during abrupt changes in load).

The closest in technical essence to the invention is a fluid flow regulator, comprising a housing with an inlet and outlet cavities, a bathroot core and an elastic ring 2 located therein.

The disadvantage of such a regulator is its limited scope. It can operate at low pressures, has a low speed and does not provide the constancy of the flow rate at fast flow and their dynamic processes. This prevents the use of this flow regulator in hydraulic drive and hydraulic automation systems.

The purpose of the invention is to expand the range of operating pressures.

The goal is achieved by the fact that the input and output cavities are connected 1 interconnectedly via a choke, filled on the cylindrical surface of the core, and the elastic ring is installed on the output side of the groove in the groove made in the core and connected by radial channels to the input cavity.

The drawing shows the general regulator of the liquid flow in the section.

The fluid flow regulator contains / and a heart 2 with a mr mot.tny ring groove on its cylindrical surface. The groove is fitted with a tension along the ends and gaps on the inner diameter.

elastic ring 4 round section of oil resistant rubber. A rectangular ring groove 3 by radial channels 5 is connected to an inlet 6 of core 2 and an inlet through an opening 7. On the cylindrical surface of the core 2, a choke 8 is made connecting the inlet cavity to 1 of a hollow 9 in iKopnyce /.

The outer surface of the elastic ring 4 Round section and boring in (Koriuse / form a working window 10. Hole // serves to connect the consumer's power supply line.

A fluid flow regulator operates as follows.

With an increase in fluid flow in the consumer's supply line (the load of the motor decreases) the pressure behind the choke 8 in the output cavity 9 decreases, while iKaiK pressure in front of the choke 8 in the inlet cavity 6, radial channels 5 and in the rectangular ring groove 3 with an elastic ring. 4 remains flat nnpm. Thereby, the equilibrium is disturbed, the elastic ring 4 is deformed, closing the working Window 10 until the flow through the choke 8 is restored.

When the consumption in the line is reduced, the order of operation is reversed.

The proposed flow regulator favorably differs from the known ones in that it ensures the constancy of the flow rate under fast-flowing dynamic processes, a simple design, and a wide range of operating pressures.

The tests of the regulator showed its high reliability and dynamic stability in a wide range of flow rate and pressure.

Formula and 3 optics

The fluid flow regulator, comprising a housing with inlet and outlet bridges, a profiled core and an elastic ring located therein, is excellent in that, in order to expand the range of operating pressures, the inlet and outlet bolsters are connected through the choke, horned on the cylindrical surface of the core, and the elastic ring is installed on the side of the exit cavity in a groove made in the core | Ke and connected by radial channels to the entrance cavity.

Sources of information, information taken during the examination at the examination:

1. Bashta TM. Hydraulic drive and hydropneumatic control valve. M., “Mechanical Engineering, 1972,

with. 112. 2. Patent of Germany Х 416972, cl. G 05 D 7/01,

1973.

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