SU1366733A1 - Stand for dynamic tests oy hydraulic systems - Google Patents

Abstract

The invention can be used to test for the effects of pressure pulsations. The purpose of the invention is to expand the simulation capabilities of the stand in the study and testing of hydraulic systems. For this, a centrifugal pump 8 is connected to the input and output channels 1 and 2 of the hydraulic system 5, and a vibrator 11 is mounted on the side surface 14 of the pneumatic cavity 15 of the pneumogram of the accumulator 7 and the vibrator 12 is designed as an elastic membrane 12 with an electromagnetic drive 13 create pressure pulsations. The bench provides with a vibrator 11 low and high frequency pressure oscillations in the system under test, and in combination with a pump 8, the simultaneous effect of these oscillations on the system. When mounting the stand on a seismic platform, additional imitation of seismic loads is provided. 1 il. with

Description

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The invention relates to devices for laboratory research, as well as for testing pressure pipelines and other hydraulic systems for the effects of pressure pulsations.

. The purpose of the invention is to expand the simulation capabilities of the stand in the study and testing of hydraulic systems.

The drawing shows the scheme of the stand for dynamic testing of hydraulic systems on the example of the pipeline

The stand contains input and output channels 1 and 2, connected respectively to input 3 and output 4 of the tested hydraulic system 5, forming

low frequency pressure oscillations are transmitted to the system.

Under impulse action on the membrane 12 from the electromagnetic drive 13 of the vibrator 11, the mode of hydraulic shock is simulated. In this case, the pressure pulse wave gradually attenuates along the length of the hydraulic system under test 5. With a series of repetitive pulses of the moving membrane 12 of the vibrator 11, a series of overpressure waves can be obtained.

During the high-frequency vibration of the membrane 12 of the vibrator 11, the hydraulic system 5 under test is loaded with high-frequency pressure fluctuations. When you start up the centrifugal pump 8 in combination with the specified re

The closed hydraulic circuit 6 by 20 presses creates additional pulsas connected to it by a pneumohydraulic accumulator 7. The stand is equipped with a centrifugal pump 8, the discharge and suction lines 9 and 10 of which are connected respectively to the input and output channels 1 and 2, a vibrator 11 made in the form of an elastic membrane 12 with an electromagnetic drive 13 and mounted on the side surface 14 of the pneumatic cavity 15 of the pneumohydraulic accumulator 7, to which the compressor 16 is also connected.

The centrifugal pump 8 is connected to the system by means of valves 17-19. In the closed hydraulic circuit 6 between the discharge and suction lines 9 and 10 of the pump 8, the valve 20 is permanently closed. In addition, a drainage device 21, a drain valve 22 are installed in the closed circuit 6 , and in pneumohydroaccum tore7- valve 23 refueling. The test bench includes pressure sensors 24 for visual monitoring of steam.

meters of testing, as well as sensors 25 and 26, connected to the recording equipment 27.

The stand works as follows.

To create a static load on the tested hydraulic system 5, a pneumohydroaccumulus - torus 7 is used, in which: with the help of a compressor 16 an excessive air pressure is created. During the continuous operation of the compressor 16, which injects air into the pneumatic cavity 15 pneumohydroaccumulators - torus 7, into the tested hydraulic valve VNIRSHI Order 6806/34

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pressure control moving in a closed loop 6 of the fluid flow. With the help of valves 17-19, it is possible to change the flow rate of a fluid in a closed 5 hydraulic circuit 6, and hence in the tested hydraulic system 5.

Claims (1)

At simultaneous work kompress-. . Sora 16 and vibrator 11 can receive simultaneous action of low-frequency and high-frequency loading pressure fluctuations, and when mounting a stand on a seismic platform, an additional imitation of seismic loads. Invention Formula Stand for dynamic testing of hydraulic systems containing input and output channels connected respectively to the input and output of the tested hydraulic system and forming with it a closed loop to which the pneumohydroaccumulator is connected, and a device for creating pressure pulsations5 0 different in that. laziness that, in order to expand the simulation capabilities of the stand, it is equipped with a centrifugal pump, connected to the suction and discharge lines, respectively, to the output and input channels, a vibrator in the form of an elastic diaphragm with an electromagnetic drive, mounted on the side surface of the pneumatic cavity; a device for creating pressure pulsations made in the form of a compressor. Circulation 652 Subscription