SU1379561A1 - Pressure fluctuation damper - Google Patents

Abstract

The invention can be used in hydraulic systems and fluid transportation systems. The purpose of the invention is to enhance the functionality of the vibration damper. For this purpose, a normally open ball valve 9 and a throttle washer 10 are placed successively in the central pipeline 5. The adjustable throttle is made in the form of a closed cylindrical helix 11 installed in front of the valve 9. The body 12 of the valve 9 is made in the form of a cylindrical cup 13 with side openings 14. Cylindrical the coil 11 is located opposite the inlet openings 6, and its free end 15 is fixed in the pipe 5. The valve 9 is installed} with the ability to interact with the throttle washer 10. When it occurs in the supply The pressure of the impulse pressure is changed by the relative position of the valve 9 and the washer 10, the size of the slit of the coil 11 and the amount of liquid passing through the central pipeline 5. This design of the damper allows the range of variation of the flow resistance to be expanded. 4 hp f-ly, h silt. & (L

Description

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The invention relates to mechanical engineering, in particular, to devices for absorbing hydraulic shocks and pressure fluctuations, and can be applied in hydraulic systems and fluid transportation systems.

The aim of the invention is to expand the functionality by increasing the functional range of change in the value of hydraulic resistance.

1 shows a damper during normal operation of the pipeline, a longitudinal section; figure 2 - the same, at the time of hydraulic shock; Fig. 3 shows a damper with an elastic element in the form of an extension spring; Fig, 4 - the same, with an elastic element in the form of a cylinder with a piston.

The pressure oscillation damper contains the case 1 with the inlet 2 and the outlet 3 with nozzles placed in it with the formation of the annular cavity 4, the central pipeline 5 with the inlet 6 and the outlet 7, with the annular cavity 4 communicating with the outlet 7 and through a spring-loaded regulating throttle 8 - with inlets 6. At the same time, the damper is equipped with a normally open ball valve 9 and a throttle washer 10 placed in series in the central pipeline 5, and the regulating throttle

8 made in the form of a closed cylindrical helix 11 installed in front of the valve 9, valve body 12

9 is embodied in the form of a cylindrical cup 13 with side openings 14, a cylindrical helix 11 is placed opposite the inlet openings 6,

and its free end 15 is rigidly fixed in the central conduit 5, the valve 9 being installed with the possibility of interaction with the throttle washer 10.

In addition, the damper is provided with an elastic element 16 mounted between the valve 9 and the free end of the spiral 11.

The elastic element 16 is made in the form of a compression spring or tension spring.

The elastic element 16 can also be made in the form of a cylinder 17 with a piston 18 and a rod 19, the rod 19 being rigidly connected to the valve 9, the rod cavity 20 communicating with the central I pipeline 5, and the piston piston 35

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Bridge 21 is in communication with an additional regulated pressure source 22.

The damper works as follows.

Under normal pressure, the fluid in the central pipeline 5 acts on the valve 9, which, interacting with the washer 10, closes it so that it provides a certain throughput of the working fluid through the central pipeline 5 so that only part of the liquid through the central pipeline 5 through the side openings 14 and the washer 10 enters the outlet nozzle 3. The rest of the liquid through the central pipeline 5 through the slots of the spiral 11, the holes 6 in the central pipeline 5, the cavity 4 and the outlets 7 so the same enters the outlet 3. The pressure drop before the washer 10 and beyond it contributes to the establishment of a certain equilibrium between these two streams, which stabilize.

When a pressure impulse in the supplied fluid rises up or down, this impulse is perceived by valve 9, its relative position with the washer 10 mends, the size of the slit of the helix 11 also changes, but inversely proportional to the change of the through hole in the washer 10 (as the aperture decreases, the helix slit 11 increases and vice versa). In this way, the amount of fluid flowing through the central pipeline 5 through the side openings 14 and the washer 10 to the outlet 3 and the amount of liquid through the second flow through the slits of the coil 11, the openings 6, the cavity 4 and the outlets 7, i.e. . flow ratio varies. The larger the magnitude of the pressure pulse, the less fluid passes through the washer 10 and the greater its quantity passes through the chamber 4.

The flow-stabilizing action is also facilitated by the difference in the path traveled by the streams and the radial arrangement of the outlet orifices 7, with an oblique arrangement at an acute angle in the direction of flow, an ejecting force appears that provides fluid from the cavity 4 through the holes 7.

When using the elastic element 16, the best angles are created to return the spiral 11 to its original position, while with the tension controller of the elastic element 16 it is possible to adjust it to a certain oscillation frequency of the entire system. When the resilient element 16 is in the form of a rod 19 connected at one end with a valve 9 and the other with a piston 18 of a cylinder 17, in the piston cavity 21 of the cylinder 17 using an adjustable pressure source 22 creates an optimal pressure in accordance with the frequency of the suppressed oscillation spectrum. The pressure pulses are sensed by the piston 18 from the side of the rod cavity 20 and bring the system into self-oscillation mode.

Claims (5)

1. A pressure oscillation damper, comprising a housing with inlet and outlet nozzles, placed therein with the formation of an annular cavity, a central pipeline with inlet and outlet openings, the annular cavity communicating with the outlet openings and through the spring-loaded regulating throttle with the inlet openings, characterized in that, in order to expand the functionality of the quencher, pos0 five 0 five 0 The latter is equipped with a normally open ball valve and a throttle washer placed successively in the central pipeline, and the regulating throttle is made in the form of a closed cylindrical helix installed in front of the valve, while the valve body is made in the form of a cylindrical cup with side holes, the cylindrical helix is placed opposite inlets, and its free end is rigidly fixed in the central pipeline, with the valve being mounted to interact with the throttle washer. 2. The damper according to claim 1, about t l and h ay n and with the fact that it is equipped with an elastic element installed between the valve and the free end of the spiral. 3. A damper according to claim 2, characterized in that the elastic element is designed as a compression spring. 4. A damper according to claim 2, characterized in that the elastic element is designed as an expansion spring. 5. The damper according to claim 2, characterized in that the elastic element is made in the form of a cylinder with a piston and a rod, the rod being rigidly connected to the valve, the rod cavity is common to the central pipeline, and the piston cavity is connected to an additional regulated pressure source. /four  / ly /four  fs sixteen Tszig.2. srcg.Z fig4