SU1569436A1 - Borehole pumping unit - Google Patents

Abstract

The invention relates to construction. The purpose of the invention is to reduce the size and increase efficiency. The guide apparatus of a double-rotor pump contains a flow part 6 with discharge, diffuser and inlet sections 7, 8 and 9. The flow part 6 is divided by partitions 10, 12 into several curved axes 11, 13. When the pump runs, the fluid after the impeller of one rotor 2 passes through the flow part 6 of the guide vane and an irrotational and uniform flow enters the inlet funnel of the next impeller of the other rotor 2. Ensuring optimal opening angles and a given curvature of the diffuser sections 8 of the flow part 6 of the pu Fitting it baffles 10, 12 provides a reduction of hydraulic losses in the guiding apparatus. 1 il.

Description

The invention relates to a pump structure, and in particular, to a design of a guide apparatus of a multi-rotor pump. The purpose of the invention is to reduce the size of ⁵ dimensions and increase efficiency by reducing hydraulic losses.

The drawing shows a transfer guide apparatus of a two-rotor ', θ pump, section.

The guide vane comprises a two-rotor pump housing (not fully shown) comprising a cylindrical shroud 1, covering both rotors 2, mezhrotornymi portions .3 and 4 i.tortsovye wall 5 (one shown), 'forming a flow part shell 1 comprising _6} outlet 7, diffuser 8 and inlet 9 sections.

The inter-rotor sections 4 of the shell 1 are made concave. In the flowing part 6, partitions .10 are installed, common for the outlet 7 ° diffuser 8 and the supply 9 sections and dividing the latter into several autonomous cranial channels 11. At least one additional partition 12 is installed in one of the latter, common for diffuser 8 and inlet 9 sections, with partitions 10 and 12 installed with the formation of one channel 13 with an axis having excesses.

The device operates as follows.

When the pump is running, the fluid flow after exiting the impeller of one rotor 2 enters the spiral discharge sections 7 of the flow part 6 of the guide appar. Then, through the rectifying crankshaft diffuser 8 and supply 9 sections, into the inlet funnel of the next impeller of another rotor 2.

In this case, the curved axial diffuser sections 8 with optimal opening angles and a given curvature of their axes equalize the velocities of the corresponding fluid flows, providing an irrotational and uniform flow inlet to the next impeller, thereby reducing the length of the flow part 6

Ensuring a uniform, vortex-free fluid flow at the inlet of the impeller after the guide vane, reducing hydraulic losses, increases the efficiency of the pump.

Claims (1)

Claims a pump comprising a casing comprising a casing with cylindrical inter-rotor sections covering both rotors and end walls forming a flow part with a casing including a discharge, diffuser and supply sections, characterized in that, in order to reduce dimensions and increase efficiency by lowering hydraulic losses, inter-rotor sections of the shell are made concave, in the flow part partitions are installed, common for the outlet, diffuser and inlet sections and dividing the latter into several autonomous cranial channels, at least one of the channels has at least one additional partition, common to the diffuser and supply sections, and the partitions are installed with the formation of at least one channel with an axis having excesses.