SU1460511A1 - Hydrodynamic throttle - Google Patents

Abstract

The invention relates to the oil industry and can be used for the hydrodynamic treatment of highly viscous solutions. The aim of the invention is to increase Reliability in operation by controlling the shape, frequency and amplitude of the measured hydrodynamic wave. The spool 4 is loaded with springs 6, oscillates relative to the sleeve 3, periodically changing the hydraulic resistance

Description

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This invention relates to the oil industry and can be used for the hydrodynamic treatment of highly viscous solutions.

The aim of the invention is to increase the reliability of operation in highly viscous and abrasive fluids, for example, in clay and cement mortars, by controlling the shape, frequency and amplitude of the radiated hydrodynamic wave, depending on the properties of the treated fluid.

FIG. 1 shows a hydrodynamic choke, a general view; in fig. 2 is a section A-A in FIG. one; in fig. 3 is a section BB, in FIG. one.

The choke includes a housing 1 with overflow ports 2 and a hydrodynamic multi-frequency generator, made in the form of a cylindrical sleeve 3 and a spool 4, which form between them an annular gap 5 with a variable cross-section and translational resistance relative to each other. The springs, 6, mounted at the ends of the spool 4, provide it with the possibility of oscillatory motion. On the annular gap forming the mating cylindrical surfaces of spool A and the sleeves 3, annular grooves are provided to provide an additional high-frequency component of the hydrodynamic radiation. The spool 4 is additionally equipped with weight adjustment discs 8 mounted on one rod 7 with it. Below the spool: 4 is placed an inertial body, which performs the function of the stability regulator and the shape of the radiated wave, made, for example, in the form of a ball 9, between which the spool and the saddle 10 and the shock absorber 11 are fixed, limiting the movement of the ball 9 together with the spool. 12, adjustable stopper 13.

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The choke works in the following way.

Fluid velocity, acting on the spool 4, elastically suspended

on the springs, causes it to move with additional high-frequency vibration downward. In this case, the equilibrium in the system is disturbed, and the total hydraulic resistance of the gap 5 decreases. However, the desire of the system to restore equilibrium causes the spool 4 to return under the action of the lower spring 6 to its original position with a simultaneous increase in the hydraulic resistance in the gap 5 to its former value. lichiny.

Thus, the spool 4 oscillates relative to the sleeve 3 and the hydraulic resistance in the gap 5 periodically changes, radiating the low-frequency component of the hydrodynamic pressure wave and thereby reducing the attenuation rate of the high-frequency component and, as a result, more deep and high-quality processing of the liquid.

When moving the spool 4 down, the rod 7 perceives additional resistance from hitting the ball 9. Then the rod 7 and the ball 9 move

5 together, and after the rod reaches the lower extreme position, the ball moves by a certain amount of inertia. In the reverse course under the action of the spring 12 is already a ball 9

40 additionally strikes the rod 7. As a result, the leading edge of the lower component of the hydrodynamic wave seems to lengthen, i.e. becomes gentler and shorter - shortens, which leads to a decrease in the intensity of the attenuation of the pressure wave from the internal friction in the liquid

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the bones and from the friction of it against the bounding fixed walls and, in addition, the stability of operation in various modes of the self-oscillatory system, the spool 4 with springs 6 - the sleeve 3.

Adjusting the frequency and intensity of hydrodynamic radiation, ocy-io, is implemented by adjusting the mass of spool 4, changing the number of disks 8, changing the location of sleeve 3 or spool 4 along the length of body 1, and adjusting the pre-tension 15 of spring 12.

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Claims (1)

Invention Formula A hydrodynamic throttle containing a spool loaded with springs at both ends and installed in the body cavity with an annular gap variable in the longitudinal section, characterized in that, in order to increase the reliability of operation, an inertia loaded with a spring towards the spool is placed in the body cavity with which a spool is fixed and a shock absorber limiting the movement of the specified body together with the spool. BUT-/( Vb Fig.Z