Product Description
Cutting pump
Strong pollutant discharge capacity; Good cutting performance; Long service life; Low installation cost.
The cutting sewage pump has strong drainage capacity and good cutting performance. The electric pump adopts a spiral structure and a sharp blade design, which can effectively cut and discharge waste materials such as straw, baby diapers, cotton, and cloth in the sewage.
The overall design of the 220V cutting type sewage pump for septic tank submersible pump is reasonable, with a reasonable matching motor and a thermal protection device. It has high efficiency and energy saving, and is widely used in sewage drainage stations of enterprises, factories, and residential areas. It can also be used for sewage discharge from septic tanks and biogas digesters. The structure of the cutting sewage pump is compact, small in size, easy to move, and easy to install. It does not require the construction of a pump room and can work underwater, greatly reducing project costs. In addition, according to the actual usage of the customer, a fully automatic safety protection control cabinet and float switch can be configured to automatically control the start and stop of the WQG type cutting sewage pump, ensuring reliable pump operation.
There are two installation methods for cutting sewage pumps: mobile and fixed. Adding coupling devices, guide rails, and chains brings convenience to the maintenance and replacement of the pump, without entering the water pit for replacement and repair.
The cutting pump, also known as the fecal pump or double blade cutting pump, is a type of sewage pump. Compared to ordinary sewage pumps, the cutting pump has some structural differences. The bottom of the body has a set of high-strength cutting impellers, which can be lightweight
Loosen and chop up fibers, feces, tree branches, and other miscellaneous items. The body structure is compact and has good environmental adaptability
Selection Notice
When choosing a suitable cutting pump, the following points should be noted: [1]
1. Determine voltage: Select the voltage according to the actual requirements, including three-phase electricity. (Voltage stability of three-phase electricity)
2. Determine power: Choose based on your own usage environment and actual needs. The greater the power, the greater the force of the machine
3. Determine the head: Simply put, the head refers to the vertical height that needs to be pumped to a higher level. (Unit: meters)
4. Determine distance: the horizontal distance that needs to be drawn. (Unit: meters)
Special reminder: The higher the lift, the better. Choosing an equal or slightly larger lift is the key.
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