RU2459998C1 - Pressure fluctuation killer - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: proposed device has case consisting of inlet and outlet branch pipes 1, 2 shaped to truncated cone for connection with pipeline. It accommodates core 3 with conical ends 4, flanges 5, 6, 7 with holes 10 and annular grooves 8, 9 communicated with flange holes. Note here that said annular grooves are shaped to semicircle or rectangle. Holes of inlet flange 5 and intermediate flange 6 are opposed while those of outlet flange 7 are shifted relative to intermediate flange holes by 15-30 degrees along killer axis and feature different seat diameter.

EFFECT: higher efficiency and reliability.

5 dwg

Description

The invention relates to the field of engineering and can be used in hydropneumatic systems operating under high pressure, namely in machine-tool, chemical, energy and other industries for damping pressure fluctuations, for example, when supplying a working medium (liquid, gas) to power plants or measuring instruments, in particular pressure gauges.

Pressure fluctuations in hydropneumatic systems lead to severe overloads of all transmission elements of the equipment and measuring links.

The well-known "damper for pressure fluctuations for hydraulic lines" (see av.St. No. 1006850, MKU F16L 55/04, from 10.21.81), containing a cylindrical body, closed on both sides with caps with inlet and outlet pipes, with placed in it perforated pipe and elastic damping elements.

The disadvantages of the absorber are the design complexity due to the presence of a perforated pipeline and elastically damping elements, which makes it difficult to pass the main flow of the working fluid and narrows the scope of its use.

Closest to the invention is a damper for pressure fluctuations in pipelines, comprising a cylindrical body, closed on both sides with inlet and outlet nozzles, with a core placed therein (see patent 2034190, IPC F16L 55/04, from 04.16.1991).

However, this damper has a complex structure and low operational reliability due to fluid leaks in the area of the adjusting screws.

The objective of the invention is to increase the damping efficiency and operational reliability of the device.

The technical result is achieved by the fact that in the damper of pressure fluctuations, including a cylindrical body, closed on both sides with inlet and outlet nozzles in the form of a truncated cone for connection with the pipeline, with a core with conical vertices placed in it, according to the invention, the housing is made detachable, consisting of an and outlet pipes, and the core is provided with flanges with holes and annular grooves communicating with the holes of the flanges and having a section in the form of a semicircle or rectangle.

Moreover, the holes of the inlet and intermediate flanges are located opposite each other, and the holes of the outlet flange relative to the holes of the intermediate flange are offset by 15 ... 30 degrees along the axis of the damper and have different diameters of location.

Figure 1 presents the damper pressure fluctuations;

Figure 2 - input flange of the core with holes;

Figure 3 - output flange of the core with offset holes on the axis of the damper;

Figure 4 is a section of the annular grooves in the form of a semicircle;

Figure 5 - section of the annular grooves in the form of a rectangle

The pressure oscillation damper consists of a housing made of inlet 1 and outlet 2 nozzles, a core 3 with conical peaks 4, comprising an inlet flange 5, an intermediate flange 6 and an outlet flange 7, forming ring grooves 8 and 9, which can be made semicircular or rectangular . Flanges 5,6 and 7 are provided with holes 10. The holes of the inlet flange 5 and the intermediate flange 6 are located opposite each other, and the holes of the output flange 7 relative to the intermediate flange 6 are offset by 15 ... 30 degrees along the damper axis and have different diameters of arrangement.

The nozzles 1 and 2 are made detachable and secured to each other by screws 11. The intermediate flange 6 is installed in the annular grooves 12 of the nozzles 1 and 2.

The damper pressure fluctuations is as follows.

The working medium (liquid or compressed air) is supplied under high pressure through the inlet pipe 1. After passing through the openings 10 of the core inlet flange 5, the medium is damped and smoothed, and after passing through the annular channel 8, the speed of the medium is reduced, thereby smoothing the pressure peaks again.

Then the medium through the openings of the intermediate flange 6 enters the annular channel 9, where the speed of the medium is reduced for the second time, and without fluctuations in pressure and pulsations through the outlet pipe 2 to power plants or measuring instruments. Displacement of the openings of the outlet flange 7 by 15 ... 30 degrees along the axis of the damper and their execution at different diameters of the arrangement further reduces pressure fluctuations and pulsations of the working medium.

The shape of the annular grooves in cross section can be selected constructively depending on the operating conditions of the vibration damper. As tests have shown, the most effective channel shapes in this case are semicircular or rectangular.

To maintain the laminarity of the flow of the working medium, the diameters and the number of holes in the flanges are selected depending on the inlet section of the inlet pipe 1.

The annular groove 8 provides a combination of the laminar flow of the medium through the openings 10 of the inlet flange 5 with the turbulent in the annular groove 8, then a secondary reduction in vibrations and pulsations in the annular groove 9, the damping of pressure fluctuations is increased.

In the inventive dampener, the damping efficiency of oscillations and pulsations is increased by 40-50% due to the implementation of the core from two annular grooves, which allows to reduce the speed of the medium twice, thereby smoothing the pressure peaks and pulsations.

As shown by experimental tests, the use of the invention in hydropneumatic systems of industrial equipment allows to reduce and smooth out the pressure peaks of a medium with high pulsation, thereby reducing overloads on elements of power plants and measuring links of devices. Failure of elements of power plants and measuring links of devices is prevented, thereby increasing the efficiency of industrial equipment.

Claims (2)

1. The damper of pressure fluctuations, comprising a cylindrical body, closed on both sides with inlet and outlet nozzles in the form of a truncated cone for connection with the pipeline, with a core with conical vertices placed in it, characterized in that the housing is detachable, consisting of input and output nozzles, and the core is equipped with flanges with holes and annular grooves communicating with the holes of the flanges and having a section in the form of a semicircle or rectangle. 2. The damper according to claim 1, characterized in that the openings of the inlet and intermediate flanges are opposite to each other, and the openings of the outlet flange relative to the openings of the intermediate flange are offset by 15 ... 30 ° along the damper axis and have different diameters of arrangement.

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