SU1566083A1 - Testing bed - Google Patents

Abstract

The invention improves the accuracy of testing hydraulic machines by maintaining a stable gas content and extends the range of tests. The proposed stand contains a closed circulation loop (CC), with which it is hydraulically connected via a deaeration line and a flow-free collector 11, tank 7 having liquid and gas cavities 8 and 9, respectively. KC has a pressure pipe 1 of the test hydraulic machine 2 with a control valve (ZRO) 3, a reversible load hydraulic machine (NG) 4, a heat exchanger 5 and a suction pipe 6 of the test hydraulic machine 2. Liquid deaeration before testing the hydraulic machine 2 is performed by pumping it KG 4 through tank 7, connected with CC, in this case, by means of a deoration line, made in the form of two pipelines 12 and 13, each of which is connected at one end respectively to the gas and liquid cavities of tank 7, and the other to the pressure pipeline y 1, respectively before and after AWGB 3 comprised within the closed state during this operation. During the test, the circulation of liquid through the tank 7 is not performed, which allows to maintain a stable amount of gas content. The collector 11 is equipped with at least three tubes 14-16, the input of each of which is connected to the lower part of the liquid cavity 8 of the tank 7, and the outputs respectively to the input and output of the NG 4 and the input of the tested hydraulic machine 2. Connecting one of the tubes to the CC allows install a pressure at the point of connection equal to the pressure in tank 7 and thus regulate the pressure at the inlet of the tested hydraulic machine 2 in a wide range of flow rates without the use of shut-off members in the suction pipe 6. 1 sludge.

Description

The invention relates to hydraulic engineering and can be used to test hydraulic machines, in particular centrifugal pumps.

The purpose of the invention is to improve the accuracy of the tests by maintaining a stable gas content of the liquid and expanding the range of tests.

The drawing shows the scheme of the test bench.

The test bench contains a closed circuit for circulation of the pumped liquid, including the discharge pipeline 1 of the tested hydraulic machine 2 sequentially arranged along the flow with the porn control regulator 3, the reversible load hydraulic machine 4, the heat exchanger S and the suction pipe 6 of the tested hydraulic machines: s 2. Stand contains a tank 7, hydraulically connected with a closed circulation circuit and having a liquid cavity b and a gas cavity 9, the last of which is connected to a vacuum pump 10. The stand is equipped with a deaeration tank and a collector 11, and the deaeration line is made in the form of two pipelines 12 and 13. Pipeline 12 is connected at one end to the gas cavity 9 of the tank 7, and the other end to the pressure pipe 1 to the stop-regulating body 3, and pipe 13 - - respectively to the liquid cavity 8 and to the porn pipeline 1 after a shut-off valve of the body 3. The collector 1 1 is equipped with at least three tubes 14-- 16, the input of each of which is connected to the lower part of the fluid cavity 8 of the tank 7, and outputs - respectively to the input and output of the load hydraulic machines 4 and the input of the tested hydraulic machines 2.

In the discharge pipe 1, a flow meter 17 is installed, and each of the pipes 12-16 is equipped with a shut-off member 18-22, respectively. The load hydraulic machine 4 is mechanically connected along the shaft with a reversible electric machine, for example a motor generator 23.

The test bench works as follows.

Before starting the tests, shut off the regulating body 3, open the locking bodies 18 and 19, turn on the loading hydraulic machine 4 and circulate the liquid through the closed circulation loop, pipelines 12 and 13 and tank 7 when the vacuum pump 10 is running. fluids in the entire circuit to a given residual gas content.

After termination of degassing, the valve 3 is closed and the opiaHbi 18 and 19 are closed. Turn on the drive of the tested hydraulic machine 2 and pump the fluid through the circulation loop. Since the circulation circuit is disconnected from tank 7, the gas-containing gas

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The fluid life remains virtually unchanged. The load hydraulic machine 4, operation in the turbine mode, the part of the head generated by the test machine 2 works, and its drive works in the generator mode and partially compensates for the energy consumed by the drive of the hydromachine 2. The rest of the head works on the control valve 3 .

In cases where the pressure of the tested hydraulic machine 2 is less than the hydraulic resistance of the circulation circuit, the loading hydraulic machine 4 operates as an auxiliary pump. The load control of the motor-generator 23 ensures that a certain setting of the preset mode and smooth regulation and simplifies the automation of the tests.

During the cavitation tests, the expansion of their range is provided by connecting the tank 7 in series with the circulation circuit through one of the tubes 14-16 of the collector 11. In this case, the pressure at the point of the circulation loop where the said tube is connected, the stop valve on which is open, becomes pressure in tank 7, the pressure at the inlet to the tested hydraulic machine 2 will be less than the pressure in the tank 7 by the amount of hydraulic losses in the area from the point of tube connection to the circuit to the entrance of the tested hydraulic machine 2. This allows ensure the required pressure range at the inlet of the tested hydraulic machine 2 at various feeds, do not use the exhaust-regulating bodies in the suction pipe 6.

Claims (1)

Invention Formula A test bench containing an amcoupled circulation circuit of the pumped liquid, including a discharge line of a tested hydraulic machine with a shut-off regulator sequentially located along the flow, a reversible load hydraulic machine, a heat exchanger and a suction pipe of the tested hydraulic machine liquid and gas cavities, the last of which is connected to a vacuum pump, characterized in that, in order to increase the accuracy of testing by maintaining a stable gas content of the liquid and extending the range of tests; the stand is equipped with a deaeration line and a non-flow collector, through which the tank is hydraulically connected to the circulation loop, the deaeration line being made in pipelines, each of which is connected at one end respectively to 515660836 the gas and liquid cavities of the tank, and the others from which are connected to the lower part of the tank, to the pressure pipeline of the respective liquid cavity, and the outlets, respectively, before and after the shut-off valve to the inlet and outlet of the loading member, and the collector the edge of the hydraulic machine and the entrance of the tested hydrometer with three tubes, the entrance of each 5 machines.