SU1368489A1 - Stand for testing immersion pump units - Google Patents

Abstract

The invention allows to expand the field of application of the stand by testing installations for pipeless lifting of liquids. In the radial gap 6 between the test pump 7 and the casing (OT) 5, a sealing element (GE) 9 is installed. The cavity 10 OT 5 is divided into 10, receiving 11 and pressure 12 chambers by means of GE 9. A pressure pipe 3 is connected to the latter with a flow meter (PM) 8. A suction pipe 2 with PM 13 is connected to the chamber 11 of 5. The flow rate of the fluid sucked in by the pump 7 and injected by it into the cam 12 is fixed with the help of PM 13 and 8. The difference their readings are given by the flow rate of fluid leakage through GE 9. Diverting a part of the fluid into the auxiliary tank and changing the degree of opening of the locking bodies 20 and 21, remove the cavitation characteristics of the pump. 1 il.

Description

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The invention relates to a technique for testing pumping installations and can be used in test benches for installations for pipeless lifting of liquid from wells and wells.

The aim of the invention is to expand the area of the first stand change by testing installations for pipeless lifting of liquid

The drawing shows the layout of the test bench for the installation of submersible pumps.

The test bench for the installation of submersible pumps contains a supply tank 1, to which the suction 2, pressure 3 and drain 4 lines are connected, a sealed casing 5, in which the test pump is placed with radial 6.

7 and to which a suction line 2 is connected, and a flow meter 8 is installed in the pressure line 3,

8 radial clearance 6 between the pump

7 and a casing tube 5 is provided with a sealing element 9, the cavity 10 of the casing tube 5 is divided by means of the element 9 into the receiving 11 and the discharge 12 of the chamber, while the pressure line 3 is connected to the discharge chamber 12, and the suction line 2 is provided with an additional flow meter 13 and is connected to the receiving casing chamber 11 5.

The stand's hydraulic system may also include an auxiliary pump 14 placed in the supply tank 1 or outside it, the input of which is connected to the latter, and the output via the bypass hydraulic line 15 to the suction line 2, and the auxiliary capacity in the drain line 4, made, for example, hydroaccumulus torus 16.1

The locking bodies 17-21 on lines x 2-4 can be made controlled and connected to the program control unit 22.

The stand works as follows

Test pump 7 is installed in the casing 5 and seal the sealing element 9, section the cavity 10 of the casing 5 on the receiving 11 and the discharge 12 chamber. Include the test pump 7, sucking fluid from the supply tank 1 and forcing it through the discharge chamber 12 and the pressure line 3 back into the supply tank 1, Regulating through the stop valve 17 on the pressure line back pressure at the outlet of the test pump 7, remove its performance during pipeless lifting fluid. At the same time record the flow

fluid sucked by the pump 7 and injected them into the chamber 12, using flow meters 13 and 8, respectively. The difference in their readings gives the flow rate of leakage of fluid through the sealing element 9, t, e, at the same time, the characteristic and reliability of the latter are recorded. Diverting a part of the liquid to the auxiliary tank - hydroaccumulator 16 and / or

the degree of opening of the locking bodies 20 and 21, remove the cavitation characteristics of the test pump 7. e

The use of an auxiliary pump 14 allows you to create the necessary pressure on the suction of the test pump 7, and in combination with the use of a hydroaccumulator 16, it simulates unsteady flow and pressure modes of operation.

installation.

Automation of the testing process is provided by the software control unit 22 controlled by the locking bodies 17-21,

Claims (1)

Claims. A test stand for submersible pump installations containing a supply tank to which the suction, discharge and drain lines are connected, a sealed casing in which the test pump is placed with a radial clearance and to which the suction line is connected, and a flow meter is installed in the discharge line, characterized by that, in order to expand the field of application by testing installations for pipeless lifting of fluid, a sealing element is installed in the radial clearance between the pump and the casing, The cavity of the casing through the latter is divided into the receiving and injection chambers, while the pressure pipe is connected to the pressure chamber, and the suction pipe is equipped with an additional flow meter and connected to the receiving chamber of the casing.