SU1753174A1 - Pressure and flow rate damper - Google Patents

Abstract

The invention relates to mechanical engineering and can be used to protect hydraulic systems from the effects of pressure pulsations and the flow rate of the working medium (liquid or gas). The purpose of the invention is to increase the efficiency of the quencher while reducing its overall dimensions. When a pressure fluctuation occurs and the flow rate of the working medium in the central pipeline 1, the pulsation energy is dissipated due to the interaction of the flow with the elastic shell 4 having the shape of an ellipse. At the same time, making holes 2 in sectors limited by a central angle of 90 ° and with a decreasing density to the sector boundaries provides a directional effect of pulsations on the shell 4 and the highest efficiency of the quencher. 1 hp f-ly, 2 ill.

Description

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The invention relates to mechanical engineering, in particular, to devices for damping pressure fluctuations and the flow rate of the working medium in hydraulic systems.

The purpose of the invention is to increase the efficiency of operation and reduce overall dimensions.

Figure 1 shows the structural diagram of the device, a longitudinal section; on fn.2 - section aa in figure 1.

The damper contains a central conduit 1 with perforations in the form of openings 2 and a damping chamber 3, which is connected to it through a screwdriver 2, and is formed by an elastic sheath 4 with an elliptical cross section. The central pipeline 1 is partially enclosed by the casing 5, the shell 4 is installed coaxially to the central pipeline 1 inside the casing 5 and fixed at the ends by means of flanges 6. At the same time, the holes 2 are made in sectors limited by the central angle of not more than 90 ° directed along the small axis of the transverse ellipse shell cross section, and their density decreases in the circumferential direction to the sector boundaries. The internal cavity of the housing 5 can be communicated with the environment.

The damper works as follows.

When a pressure and flow oscillations occur in the central pipeline 1, the flowing fluid interacts with the damping cavity 3 through the openings 2.

The dissipation of the energy of the pressure pulsations and the flow rate is carried out due to the deflection of the elastic shell 4 and the throttling of the fluid through the openings 2. Additional

Pulsation damping effect is provided by creating an excess pulse pressure only in those zones of elastic shell 4 where bending stresses have a positive sign, for which holes 2 are located in sectors limited by a central angle of 90 ° along the small axis of the ellipse formed by the cross section of shell 4. Execution holes 2 with decreasing density in the circumferential direction to the boundaries of the sector provides a directional impact of the pulsating fluid flow on the shell 4, the maximum mobility of the latter and the greatest effect of the quencher.

Claims (2)

1. A pressure and flow oscillation damper containing a central perforated pipeline and a damping chamber in communication with it, formed by an elastic shell with an ellipse-shaped cross section, characterized in that, in order to increase the efficiency of operation and reduce overall dimensions, it is equipped with partially covering the central piping is provided with a casing, the casing is installed coaxially to the central piping inside the casing and fixed along the ends, and the perforation of the central piping is made in sectors, bounded by a central angle of not more than 90 °, directed along the small axis of the shell ellipse. 2. A vibration damper according to claim 1, characterized in that the perforation is made with a density decreasing in the circumferential direction towards the boundaries of the sector.