SU1000602A1 - Multisection pump starting method - Google Patents

Description

(54) METHOD FOR STARTING A MULTI-SPRING PUMP

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The invention relates to hydraulic engineering and can be used in the operation of centrifugal pumps, pumpers, their fluids, having structural and mechanical properties, such as high viscosity, paraffinic oils.

A known method of launching a multisection pump, including the simultaneous promotion of the shafts of sections 1.

The disadvantage of this method is the increased starting power of the pump drive.

The closest to the proposed technical essence and the achieved result is a method of starting a multi-section pump, including the promotion of the shaft of the first in the direction of flow of the pump section and the subsequent sequential connection of the remaining sections 2.

However, this method is characterized by insufficient reliability and increased starting power of the drive due to the fact that the connection of the subsequent sections occurs when the shafts are stationary, which leads to the appearance of large shock and inertial loads.

The purpose of the invention is to reduce the drive MOIUHOCity and increase the reliability of the launch.

The goal is achieved by the method of starting a multi-section pump, which includes spinning the shaft first along the flow path of the pump section and then sequentially connecting the remaining sections, before spinning up the shaft of the first section connects the pump outlet to the inlet of this section and the subsequent section is carried out during the unwinding of its shaft in the turbine mode.

Pa the drawing shows a diagram of a multi-section pass, the launch of which is carried out according to the proposed method.

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The pump contains sections 1, 2 and 3 working steps. The shafts 4, 5, and 6 of the sections are connected by controlled sleeves 7 and 8, for example electromagnetic, and are driven in rotation by the drive 9. The output 10 of the pump is connected to the input 11 of the first section along the fluid movement of section 1 by means of, for example, a tube 12.

The pump is started as follows.

Before starting, disconnect the shafts 4, 5 and 6 by means of couplings 7 and 8 and block the outlet 10 of the pump.

Spin the shaft 4 first along the movement of the fluid section 1 of the pump and then sequentially connect the remaining sections 2 and 3. Before unwinding the shaft 4 of the first section 1 connect the outlet 10 of the pump to the inlet 11 of this section, and connect the shaft 5 or 6 of each subsequent section 2 or 3, respectively, are carried out during the unwinding of its shaft in the turbine mode.

When promoting the shaft 4, the fluid enters its inlet 11 and under increased pressure passes through the flow channels of the remaining sections 2 and 3, spinning their shafts 5 and 6 in the turbine mode. Further, the liquid from the pump outlet 10 through the tube 12 is supplied to the inlet 11 of the first section. Due to the circulation of fluid through the pump, its viscosity decreases and the moment of resistance on the pump shaft decreases accordingly. When a certain frequency of rotation of the shaft 5 of the second section 2 is reached, by means of the coupling 7, it is connected to the shaft 4 of the first section 1. Then the remaining sections are connected in a similar way, and then the pump outlet 10 is connected to the pressure line.

The application of the proposed method of starting the pump allows to significantly reduce the starting torque and starting current of the drive, as well as shock and inertial loads, and to facilitate starting when pumping liquids with structural and mechanical properties.

Claims (2)

1. Bogdanov A. .L. Submersible centrifugal pumps for oil supply. M., “Nedra, 1968, p. 241. 2. Authors certificate of USSR M 458660, cl. F 04 D 13/10, 1972.