SU1574928A1 - Pulser - Google Patents

Abstract

The invention relates to the field of oil industry. The aim of the invention is to accelerate the output of the pulsator to the mode and increase the stability of the oscillations. In the housing 1 is placed on the elastic elements 5 a hollow disk (D) 4, in which the springs 7 are installed pathogen (B) 6, made in the form of a truncated cone, located a smaller base against the flow of the working environment. The flow of the working medium, the leakage in the gap formed by D 4 and the housing 1, and in the gap formed by the inner surface of D and B causes oscillations of B and then D. B contributes to accelerating the entrance of D to self-oscillation mode and increasing their stability further. Due to D & B oscillations, pressure pulsations occur in the flow. Performing a pulsator with a B installed in the hollow D provides less inertia of the pulsator during start-up, a complex form of pressure pressure fluctuations of the working medium and greater stability in operation. 1 il.

Description

The invention relates to hydraulic engineering and the oil industry and can be used to obtain pressure fluctuations of the working medium in the drill pipe.

The purpose of the invention is to accelerate the output of the pulsator to the mode and increase the stability of the pulsations.

The drawing shows a pulsator.

The pulsator consists of a housing 1, in which channels 2 for supply and channels 3 for removal of the working medium are made. In the cavity of the housing 1 there is a hollow disk 4 mounted on two elastic elements 5. In the cavity of the disk 5 there is a pathogen 6 mounted on two elastic elements 7 with the possibility of axial and radial movement and made in the form of a truncated cone located with a smaller base I facing the flow of the working medium . IN ! the bases of the hollow disk 4 are made inlet 8 and outlet 9 windows. Outside the housing 1, sealing elements 10 are installed.

The pulsator operates as follows.

The pulsator is installed inside the drill pipe string using a sealing element 10. The flow of the working medium through the channels 2 enters the cavity of the housing 1 and is divided into two parts, one of which rushes into the gap between the inner surface of the housing 1 and the outer surface of the hollow disk 4, and the other part of the flow through the inlet windows 8 enters the inner cavity of the disk 4, passes through the confuser gap between the inner surface of the disk 4 and the outer surface of the pathogen 6, and then through the outlet windows 9 enters the cavity housing 1, merging again into one stream.

Passing through the confuser gap, the working medium causes self-oscillation of the pathogen 6, which makes a complex movement in the internal cavity of the disk 4, bringing it out of equilibrium. Part 10 of the flow of the working medium flowing outside the disk 4 causes self-oscillations of the latter, and the oscillating pathogen 6 accelerates the onset of these oscillations at the initial moment due to the removal of the equilibrium state of the disk 4, and further increases their stability. Due to oscillations of the disk 4 and the pathogen 6, pressure pulsations occur in the flow of the working medium.

Claims (1)

Claim A pulsator comprising a housing with channels for supplying and discharging the working medium, a poled disk mounted in the cavity of the housing on two elastic elements, and a pathogen placed in the cavity of the disk, characterized in that in order to accelerate the output of the pulsator to the mode and increase the stability of the pulsations , the pathogen is made in the form of a truncated cone fixed on two elastic elements with the possibility of radial and axial movement and set up with a smaller base to meet the flow of the working medium, and in the bases of the disk are made inlet and final year at the window.