SU1622706A1 - Pressure pulsation damper - Google Patents

Abstract

The invention relates to mechanical engineering and can be used in industries that are associated with the necessity of damping pressure pulsations and flow rates of working media, for example, in pneumatic automation systems, gasification installations, turbine control systems, etc. The purpose of the invention is to expand the range of operating pressures. During the operation of the quencher, the fluid flow enters the inlet 3, passes through the throttling holes 6 in the piston 5 and exits through the outlet nozzle 4. The pressure pulsations in the medium are extinguished due to the elastic installation of the piston 5 between the springs 9 and 10 and throttling the liquid on the holes 6 In the event of a change in the average pressure level at the inlet 3, the working range of the piston 5 is provided by means of a bypass channel 2 with a throttle element 7, which maintains the required pressure drop across the piston 5 and, moreover, quencher effectiveness to automatically adjust to the desired mode of operation by adjusting the pressure in the middle cavity 11 for additional piston 8 of the pressure in the inlet pipe 3. 1-yl. (/)

Description

The invention relates to mechanical engineering and can be used in industries related to the need to dampen pressure pulsations and flow rate of working media, for example, in pneumatic automation systems, gasification plants, turbine control systems, etc.

The aim of the invention is to expand the range of working pressures.

The drawing shows a pressure pulsation damper.

The pressure pulsation damper comprises a housing 1 with a bypass channel 2, an inlet 3 and an outlet 4 nozzles, a piston 5 with throttling holes 6, a throttle element 7. an additional piston 8, springs 9 and 10 and cavity 11.

The quencher works as follows.

The liquid stream enters the absorber at the inlet of 3 passes ^at 20 che Res throttle openings 6 in the piston 5 and exits through the outlet 4, the pressure pulsations in the fluid thus damped by elastic piston 5. Making setting under the influence of pulsation tions 25 pressure forced oscillations, the piston 5 dissipates excess energy and stabilizes the pressure after the damper. Excessive energy is dissipated due to the friction of the piston 5 against the walls of the housing 1 and 30 due to the elastic compression or extension of the springs 9 and 10, as well as the throttling of the fluid flow at the throttling holes 6. If the average pressure level at the inlet 3 increases, the piston 5 moves to the outlet the pipe 4 is eliminated due to the bypass channel 2 with the throttle element 7, which provides the damping of the variable component of the pulsating pressure in the required range of pressure drops on the piston 5.

The throttle element 7 eliminates the passage of the variable component of the pressure stream through the bypass channel 2.

In the case of the operation of the absorber in the resonant mode of operation, which provides the highest efficiency of damping the pulsations of the pressure of the fluid flow, the regulation of pressure in the cavity 11 using the bypass channel 2 with the throttle element 7 allows you to automatically maintain the specified mode of operation when the average pressure level at the inlet of the damper changes.

An additional piston 8 provides the required compression of the springs 9 and 10. As well as the damping of low-frequency fluctuations in the pressure of the liquid in the case 1 of the damper.

Claims (1)

Claim A pressure pulsation damper comprising a hollow body with a bypass channel, inlet and outlet nozzles, inside of which a piston with throttling holes spring-loaded on the side of both nozzles is installed, characterized in that. in order to expand the working pressure range, the damper is equipped with a throttle element and an additional piston, the latter being installed in the housing between the spring and the outlet pipe with the formation of a cavity, and the cavity is connected to the inlet pipe with a bypass channel through the throttle element.