SU1765603A1 - Pressure and flow damper - Google Patents

Abstract

Usage: in power engineering, compressor engineering, in areas of technology, where there are wave and vibration processes. Summary of the Invention: A perforated pipe 2 is coaxially mounted inside a cylindrical KODt valve 1 with inlet and outlet pipes. The ends of evenly placed elastic damping elements 3 of elliptical shape are fixed on the end walls 6 of the housing 1. Inside each element 3 three thin-walled cylindrical elastic pipes 4 are placed with tension 5. The central tube 5 is located coaxially with the element 3 and its outer diameter is equal to the internal dimension of the small axis of the ellipse of the element 3. The axes of the outer tubes 4 are located on the large axis. and the element 3 and their surfaces are in contact with a part of the inner surface of the element 3 and the surface of the tube 5. The inner cavities of the tubes 4, 5 and the element 3 are filled with elastic metal chips 7. 2 or more WITH С vi vi about a with Fig;

Description

The invention relates to means of controlling wave and vibration processes in main pipelines designed for pumping liquid or gas and operating in various pressure regimes. The device is intended for use in power engineering, compressor building, as well as in those areas of technology where wave and vibration processes occur due to different sources (starting and stopping pumping and compressor stations, turning on and off fast valves and valves in branched pipelines ).

A pressure oscillation damper is known, consisting of a perforated section of the pipeline, an outer casing and an elastic element. The elastic element divides the volume enclosed inside the body into two parts that are airtight relative to each other: gas and liquid.

A disadvantage of the known device is the relatively low damping capacity of the elastic element at high operating pressures.

The closest in technical essence to the claimed device is the pressure and flow oscillation damper with elliptical tubes, adopted as a prototype. A disadvantage of the known device is the low reliability of the damping elliptic elements due to the presence of areas with a large curvature — stress concentrators, as a result of this relatively short service life.

The aim of the invention is to increase the reliability of the elastic damping elements and the service life of the damper.

This goal is achieved by the fact that inside each elastic elliptical element three cylindrical elastic tubes are placed, the center of the larger tube coincides with the geometric center of the ellipse, and its outer diameter is equal to the inner size of the small axis of the ellipse of the elastic element, the centers of the smaller tubes are located on the major axis an elastic element and their surfaces lie on a part of its inner surface in the region of greatest curvature and touch the central tube, with the inner cavities of the tubes and the elastic element that are filled with an elastic metal shavings.

Fig, 1 shows a constructive diagram of the quencher; in fig. 2 shows section A-A in FIG. one.

The damper includes a housing 1 with inlet and outlet nozzles, a perforated pipe 2, damping elliptical elements 3 with elastic pipes 4, 5 placed inside them.

0 The device operates as follows.

The fluid flowing through the main pipeline through the perforations in the pipe 2 fills the cavity of the housing 1 and the pressure of the fluid affects the damping elements 3. When pressure oscillations occur, the damping elements 3 deform, an increase in pressure causes the ellipse to compress along a small

0 axis. In this case, the oscillation suppression occurs due to the energy dissipation on the perforations of the pipe 2 and due to the distributed damping during deformation of the elements 3 and the sudden flow of liquid. As a result of elastic deformations, the greatest stresses arise in the damping elliptic element in the areas of greatest curvature. Presence of three tubes placed with tension inside the element

0 prevents the element from destruction in the most dangerous places, since the side tubes, having a smaller diameter than the central part, take on themselves for a part of the load. Due to its deformation during compression of the elliptic element, the central tube ensures that the extreme tubes fit to the inner surface of the damping element. Preliminary tension, with which the tubes are placed inside the deforming element, ensures a constant fit of the outer tubes to its inner surface. In addition, by choosing the value of the preliminary tension, you can choose the required dynamic

Claims (1)

5 characteristic of the damping element as a whole. The presence of elastic metal shavings inside the cavities of the tubes and the damping element increases the damping capacity of the damping element itself and the entire damper. Claims of the invention A pressure and flow oscillation damper comprising a cylindrical body with an inlet, outlet nozzles and a perforated tube installed inside the perforated tube and evenly placed elastic damping elements of elliptical shape, the ends of which are fixed on the end walls of the body, characterized in that In order to increase the reliability and increase the service life of the quencher, three thin-walled cylindrical elastic tubes are placed inside each elastic elliptical element, the central tube being coaxial with the elastic elliptical element and its outer diameter equal to the internal size of the small axis of the elastic element ellipse, the axes of the extreme tubes the major axis of the elastic element and their surfaces are in contact with a part of the internal surface of the elastic element and the surface of the central tube, and inside The hollow cavities of the tubes and the elastic element are filled with elastic metal chips. Thebes.2