SU1020646A1 - Pumping station - Google Patents

Abstract

The PUMPING STATION, which contains pumps with suction and discharge nozzles, the first of which are hydraulically connected to the water intake, and the pressure manifold with a flow meter at its inlet connected to the pump control panel, in order to improve efficiency and reliability, it equipped with a hydraulic elevator, having a passive nozzle, equipped with a motorized valve and connected to a water intake, and an output movable electric motor clutter, connected to a pressure collector in front of the flow Omera, valve and confuser electric actuators are connected to the control panel, and the hydraulic nozzle has an active nozzle (O at least one discharge (L pump nozzle).

Description

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The invention relates to hydraulic engineering, in particular to the construction of a pumping station, and can be used in the design, construction and ecopaturation of network pumping stations operating on a closed irrigation network using wide-range sprinklers.

A well-known pumping station, comprising a pump, suction and discharge pipelines, at the last of which a hydraulic ram is installed, which serves to draw water, for example, from a well or well.

Closest to the proposed technical entity is a pumping unit that contains pumps with suction and discharge nozzles, the first of which are hydraulically connected to the water intake, and a pressure manifold with a flow meter located at its input connected to the C2 J pump control panel.

The disadvantages of the known steaming include low efficiency and reliability.

The purpose of the invention is to increase efficiency and reliability.

The goal is achieved by the fact that the pumping station, containing pumps with suction and discharge nozzles, the first of which are hydraulically connected to No.1 with a water inlet, and a pressure manifold with a flow meter located at its entrance, connected to the pump control panel, has a passive a coil, driven by an electric motor valve and connected to a water intake, and an electrically driven mobile moving confuser connected to a pressure manifold in front of the flow meter, electric valve valves on and connected to the control converger pupgu and active nozzle gidroepevatora serves at least one discharge pipe naso-, ca.

FIG. 1 shows a diagram of a pumping station; in fig. 2 - pressure pipes 1 and injected into the hydraulic elevator in parallel.

The pumping station contains pumps 1-3 with suction 4-6 and injection 7-9 nozzles, the first of which are hydraulically connected to the water intake 10, and pressure manifold 11c located at its inlet flow meter 12 connected to the control panel 13 of the pumps 1-3. The station is equipped with a hydraulic elevator 14, having a passive nozzle 15, equipped with a valve 16 and an electric actuator 17 and connected to a water intake 10, and an output movable coupling 18 with an electric actuator 19 connected to a pressure collector 11 in front of the flow meter 12. Electric drives

17 and 19 of the valve 16 and the confuser 18 are connected to the control panel 13. The active nozzle of the hydraulic elevator 14 will squeeze at least one discharge port 7 of the pump 1. It is also possible to connect the hydroepevator as the active nozzle parallel to the other injection nozzles 8 and 9 of the pumps

2 and 3. The discharge pipes 7–9 of pumps 1–3 are equipped with check valves 20–22.

The pumping station operates as follows.

In the event of an emergency shutdown of the power supply of pumps 1-3, the resulting low-pressure wave propagates through the pressure manifold 11. Go to the sprinkler or reservoir

(not shown) and reflected, the wave returns to check valves 2O-22. At the same time, there is no shock increase in the pumping station, since the pressure wave, the approach

to the station, meets on its way a hydroheater 14, through a passive nozzle 15 of which the shock wave enters the water intake 10. The reflection of the wave from the water intake 10 causes a strong

the dissipation of its energy, which ensures the extinction of pressure oscillations arising in the system.

With the operational shutdown of one or more than one pump

1-3, the hydraulic elevator 14, which connects the pressure manifold 11 with the water intake 10, serves as a tap on the pressure (wave or wave) generated in this water in the water inlet 10, thereby achieving hydraulic shock relief in these cases.

With all the pumps 1-3, the hydraulic elevator 14 takes part of the water from the water intake lO, min 1-3 pumps, due to the energy of the fluid flow supplied by pumps 1-3 to the hydraulic elevator 14, when several pumps 1-3 or one of them are running between the active nozzle, for example injection. pipe 7, and movable confuser

18 in the hydraulic ejector 14 is automatically changed by the electric drive

19, which is controlled from the console 13 by commands generated

Claims (1)

A PUMPING STATION containing pumps with suction and discharge nozzles, the first of which are hydraulically connected to a water intake, and a pressure manifold with a flow meter located at its inlet connected to a NaOs control panel, characterized in that, with a chain for increasing efficiency and reliability, it is equipped with a hydroeparator having a passive nozzle, equipped with an electric valve and connected to a water intake, and an output movable electric confuser connected to a pressure manifold in front of the flow meter, lektroprivody converger valve and connected to the control panel, and the active nozzle gidroepevatora serves at least one discharge pipe of the pump. Fig!