SU1765602A2 - Hydraulic shock damper - Google Patents

Abstract

Usage: in pipeline systems. SUMMARY OF THE INVENTION: A generator of electromagnetic radiation beams is made in the form of a block of capacitors. Along the perimeter of the shell end with a smaller diameter, two electrodes are installed opposite each other, connected through conductors to the generator output. 2 Il.

Description

The invention relates to the field of hydraulics and can be used to absorb the energy of hydraulic shocks in pipeline systems.

According to the main author. St. No. 1702064 is known for a hydraulic shock absorber comprising a hollow shell in the form of a rotating body fixed around the perimeter of the end with a large section diameter inside the pipeline section coaxial to the latter, the shell being made of an elastic material with a lateral surface forming an exponential shape.

The main disadvantage of the known device is the slight dissipative characteristics of the device, since their level is determined by the energy consumption of the compression wave necessary to restore the kinetic energy of the fluid subjected to throttling through the deformed damper shell. It is obvious that the energy of the compression wave caused by the hydraulic shock is determined by the mass characteristics of the inhibited fluid flow, while the kinetic energy of the liquid being restored is determined by the amount of liquid passing through the shell during the deformation time of the latter. Obviously, the more intense the compression wave, the smaller the amount of liquid that will be throttled, and, consequently, the lower dissipative characteristics of the damper.

The purpose of the invention is to increase the efficiency of the water hammer.

The essence of the invention consists in changing the nature of the dissipation of the energy of a compression wave in a fluid behind a network, that the damper is equipped with a generator of electromagnetic radiation beams, made in the form of a block of capacitors, and along the perimeter of the shell with a smaller diameter two electrodes are installed opposite each other, connected via conductors generator.

Fig 1 is a diagram of the proposed device; in fig. 2 - the scheme of his work.

The device comprises a hollow elastic shell 1 in the form of a rotational body with an exponential generatrix, fixed along the perimeter of the end face 2 with a large section diameter inside the pipeline section 3 coaxially with the latter. At the end 4, with a smaller cross-sectional diameter, two electrodes 5 are installed opposite each other, communicated via electrical connections (conductor

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for) 6, made, for example, inside the shell 1, with a generator of electromagnetic radiation beams 7 made in the form of a block of capacitors.

The damper works as follows.

In the case of a hydraulic impact in the line, there is an intensive conversion of the energy of the fluid flow into the kinetic energy of the compression wave propagating from the region of origin to the side of the damper. As a result of braking, the plot of the fluid velocities in the compression wave moving through the pipeline 3 has the appearance of position a (Fig. 1). When the wave reaches the compression cavity b formed by the rigid pipe 3 and the external surface of the elastic shell 1 facing it, a sharp deceleration of the compression wave occurs, which causes an intense pressure jump in cavity b (Fig. 2). In this case, the entire expansion wave of the compression wave will be directed to the symmetric elastic compression of the elastic sheath 1. As a result, the channel is intensely narrowed in the hollow elastic sheath 1, thus preventing the further propagation of the compression wave through the conduit 3 and ensuring the localization of the trap area

Claims (1)

no water hammer energy. At the same time, a sharp narrowing of the channel in is accompanied by a decrease in the distance between the electrodes 5, which leads to the formation of an arc discharge in the interelectrode gap, the source of which is the generator 7. The specified arc discharge, being a channel for the breakdown of a liquid, ionizes the latter to form a high-temperature plasma. Around the channel of the sample, an instantaneous explosive evaporation of the working fluid occurs and an expanding vapor bubble is formed. In this case, since in the area of localization of the surge energy, the latter is directed in antiphase with respect to the expansion energy of the vapor bubble, the latter collapses due to intense vapor condensation. The formula of the invention Hydraulic shock absorber for ed. St. Mg 1702064, characterized in that, in order to increase the efficiency of water hammer energy, it is equipped with a generator of electromagnetic radiation beams, made in the form of a block of capacitors, and along the perimeter of the shell with a smaller diameter two electrodes are installed opposite each other, connected via conductors to the generator output  S b 6