Energy saving integrated pump station

NegotiableUpdate on 04/02

Model

Nature of the Manufacturer: Producers

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Place of Origin

Online Consult

Overview

The energy-saving integrated pump station is fed back with liquid level information from pressure sensors or floating balls to the control system, and then the water pump switch is adjusted by the operating parameters set by the control system. When the liquid level reaches the system set opening water pump level, the control system will control the water pump to start, so that sewage is pumped from the pump station to the outlet of the municipal sewage pipeline; When the sewage pumping is below the set liquid level of the system, the system will control the water pump to stop. This cycle repeats to ensure the smooth operation of the pump station.

Product Details

The main body of the energy-saving integrated pump station consists of a wellbore, submersible sewage pump, coupling device, pipeline, valve, liquid level sensor, control system, grille, ventilation system and other components. After production and assembly are completed in the factory, they are transported to the project site for installation. It can be equipped with high-performance submersible sewage pumps and crushing grilles, which have many advantages such as wear resistance, less land occupation, small construction volume, and low operating costs, achieving effective discharge of domestic sewage in places with high environmental requirements such as municipal and high-end residential areas.

Technical characteristics of energy-saving integrated pump station:

1. Soft conveying performance. The special structure of the spiral centrifugal pump determines its soft conveying performance. The core component is the spiral centrifugal impeller, which consists of a spiral part and a centrifugal part. The rotation of the impeller forms an open flow channel, allowing large diameter solid particles to pass through.

2. No blockage or entanglement performance. The open large channel of the spiral centrifugal pump makes it easier to transport large-sized solids and long fiber materials. Ordinary centrifugal pumps often get caught by the edges of the blades or stuck or blocked between the inlet and outlet when long fibers and solids enter the channel, causing mechanical failures.

3. Realize self cleaning performance. The system adopts a horn suction port and pre rotating basin design, and its shutdown water level is close to the bottom of the pump station. As the water level continues to decrease, when the water level drops to the pre rotation start water level, the pre rotation basin configured in the system can form a pre rotation water flow in the incoming water, carry floating slag and impurities at the bottom of the pool, suction floating slag and sediment, avoid the accumulation of impurities and odorous gases caused by high shutdown water level in traditional pump stations, effectively reduce the impact on the surrounding environment, and achieve self cleaning of the pump pit, eliminating the need for deodorization devices and cleaning equipment.

5. It has the function of regulating flow and does not require setting up a frequency converter. When the water level reaches the pre rotation level, the pre rotation system begins to rotate slightly. The sewage in the pump station has already developed a certain water flow velocity before reaching the impeller of the pump, and its water flow direction is the same as the rotation direction of the impeller.

6. No need to set up a grille. Traditional sewage pumping stations require the installation of manual or mechanical grilles at the front end of the inlet to intercept large suspended or floating debris, in order to protect the pump impeller, prevent pump blockage or impeller wear, and ensure the normal operation of the pump. Setting up manual or mechanical grilles takes up a large area and requires frequent cleaning and maintenance of the grilles.

Working Principle:

It is feedback from pressure sensors or floating balls on the liquid level information of the pump station to the control system, and then the operation parameters set by the control system are used to adjust the operation of the water pump switch. When the liquid level reaches the system set opening water pump level, the control system will control the water pump to start, so that sewage is pumped from the pump station to the outlet of the municipal sewage pipeline; When the sewage pumping is below the set liquid level of the system, the system will control the water pump to stop. This cycle repeats to ensure the smooth operation of the pump station.