RU2403489C1 - Hydraulic impact damping device - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: device consists of straight-line pipe section of constant diametre, which is equipped in addition with in-series located extended pipe section ("coil") with diametre which is larger at least by 2 times than diametre of preceding straight-line pipe section, as well as with bypass tap connecting the above "coil" to the preceding straight-line pipe section; at that, axis of bypass tap and axis of "coil" are provided at acute angle, and axis of inset of bypass tap with axis of straight-line pipe section is provided at straight angle, and distance of the tap from "coil" to inset of straight-line pipe section is equal to the half wave of possible hydraulic impact.

EFFECT: improving reliability and decreasing considerable costs for operation of hydraulic impact damping device.

1 dwg

Description

The invention relates to the field of hydraulic engineering, in particular to a system of pipelines transporting liquids.

In the system of pipelines transporting liquids, there are cases of oscillatory processes (water hammer), expressed by the movement of alternating regions of high and low pressure in the liquid.

A device for damping water hammer in a piping system, containing a movable piston system of a damping device, pumping fluid (eg oil) to another piston system [1]. In this device, under the action of a high-pressure region on the piston, the latter pumps the liquid above it into another piston system, and when the front region with increased pressure is removed, the piston returns to its original state. The process of quenching water hammer consists in the fact that part of the energy of the water hammer in the pipeline is taken for the movement of the piston system. However, this hydraulic shock damping device has a complex mechanical structure and, therefore, is unreliable, and also requires operating costs.

This invention is aimed at improving the reliability, simplicity and reducing significant costs for the operation of the device for damping hydraulic shock.

This goal is achieved by the fact that the device for quenching the energy of hydroblows in a pipeline transporting a liquid consists of a straight section of pipe of constant diameter and is additionally equipped with a sequentially located expanded pipe section (“coil”) with a diameter of at least 2 times that of the diameter the preceding straight pipe section, as well as the bypass outlet connecting the aforementioned “coil” with the previous rectilinear pipe section, the bypass outlet axis and the “coil” axis being provided s at an acute angle, punch axis with the bypass outlet pipe axis rectilinear section is provided at a right angle, and the distance from the outlet "coil" tie-in to a straight pipe section in the middle is half wave potential surge.

The drawing shows: 1 - a straight pipe section, 2 - "coil" or an expanded pipe section, 3 - bypass pipe, 4 - insert bypass pipe.

The distance from the tap to the tie-in is equal to the average half wavelength of a possible water hammer.

Information sources

1. V.G. Kulikov, M.V. Zamataev, V.N. Primenko. Emergency protection of pipelines and equipment, g. “Sphere Neftegaz”, No. 2, 2007 (can be viewed on the website: http://transwave-azov.com.ua/?id=19).

Claims (1)

A device for damping water hammers in a pipeline transporting a liquid, consisting of a straight section of a pipe of constant diameter, characterized in that it is additionally equipped with a sequentially located expanded section of the pipe (“coil”) with a diameter of at least 2 times larger than the diameter of the previous straight section of the pipe as well as a bypass outlet connecting the aforementioned “coil” with the preceding straight pipe section, the axis of the bypass outlet and the axis of the “coil” are provided at an acute angle scrap, and the insertion axis of the bypass outlet with the axis of the straight section of the pipe is provided at a right angle, and the distance of the discharge from the “coil” to the insert into the straight section of the pipe is on average equal to half the wave of possible water hammer.