PV/PVJ Series Vertical Sump Pump
Pansto PV/PVJ vertical sump pumps are designed specifically for a variety ofsump condition applications.Pansto PV/PVJ pumps can replace Warman SP pumps.
The PV/PVJ range is of a vertical cantilevered design that features hard alloy wear parts or full elastomer protection on all submerged components. They are especially suitable for abrasive slurries and feature a robust design with ease of maintenance.
Description
Pansto PV/PVJ vertical sump pumps are designed specifically for a variety ofsump condition applications.Pansto PV/PVJ pumps can replace Warman SP pumps.
The PV/PVJ range is of a vertical cantilevered design that features hard alloy wear parts or full elastomer protection on all submerged components. They are especially suitable for abrasive slurries and feature a robust design with ease of maintenance.
Features & Advantages
Cantilever design without
submerged bearings
– The heavy duty pump shaft is of cantilever design, hanging below the bearing housing.There are no submerged bearings.
Cantilever design without shaft seals
– The wet end is suspended from a tubular column below the bearing housing and submerged in water, there are no shaft seals. This design ensures minimum maintenance and eliminates the need for water flushing.
Open impeller design
– The open or semi-open impeller provides better solids handling than the closed impeller design and is less sensitive to air blocking on intermittent operation.
Heavy duty bearings
– Heavy duty grease lubricated roller bearings in a sealed cartridge designed for maximum bearing life.Bearings are located in a housing above the base plate for accessibility and protection.
Type of drive
– Pumps can be coupling drive or V-belt drive.
Coupling drive
The motor shaft and the pump shaft are connected by a coupling.
V-belt drive
The motor is mounted vertically,on an adjustable motor plate fitted beside the bearing housing.The rotate speed of the pump can be changed by changing the pulley ratio.
Shaft length is optional
– Pump shaft length can be changed according to customer needs at the time of ordering.
Specification & Performance Parameters
- Model Notation
65QV-SP(R)
———65: Outlet Size (mm)
———QV: Frame Type
———SP: Metal Vertical Slurry Pump
———SPR: Rubber Vertical Slurry PumpModel Max. Power
(kW)Capacity
(m³/h)Head
(m)Speed
(rpm)Max. Eff.
(%)Impeller
(mm)Shaft Length
(mm)Max. Particle
(mm)Weight
(kg)40PV–SP 15 7–39 5–27 1000–2200 38 195 900 12 300 65QV–SP 30 20–111 7–32 700–1500 51 290 1200 15 500 100RV–SP 75 41–290 5–36 500–1200 56 390 1500 32 920 150SV–SP 110 108–576 9–38 500–1000 55 480 1800 45 1737 200SV–SP 110 180–792 9–39 400–850 64 550 1800 65 2800 250TV–SP 200 252–1080 10–35 400–750 60 605 2100 65 3700 300TV–SP 200 288–1440 7–28 350–700 62 610 2100 65 3940 Note: Approximate clear water performance and be used for preliminary selection only.
* Pansto® is a registered trademark and does not represent or is not in any way affiliated with Warman® of Weir Minerals Group. All names,numbers, symbols and descriptions are used for reference purpose only and do not imply that any pumps or parts listed is the product of Warman Pumps.
* Pansto® SP vertical slurry pumps and spares are only interchangeable with Warman® SP vertical slurry pumps and spares.
* This document is the property of Pansto® Pump and can be neither reproduced nor disclosed to a third party without a written authorization.
Structure Diagram
Bearing Housing
The bearing housing is made of corrosion-resistant material to carry and protect the bearing toensure the smooth operation of the pump shaft. The bearing housing is designed to be strong,which can effectively avoid the pollution of the slurry to the bearing, thus prolonging the servicelife of the bearing.
Shaft
The shaft is made of high-strength and wear-resistant alloy material, which is an important partconnecting the motor and the pump casing to transmit power to the impeller. The shaft of theSV(R) pump adopts a large diameter and short cantilever design, which can effectively reduceshaft offset and vibration.
Mounting Plate
The mounting plate is made of strong materials to ensure that the installation of the pump is frmand reliable, and to ensure the stability of the pump casing.
Pump Column
The pump column is designed to be strong and durable, adapting to the application environmentin the sinking liquid, and ensuring the stable operation of the pump casing. The pump columnconnects pump casing and the mounting plate to support and fx the main parts of the pump, tokeep the pump casing vertical.
Impeller
The impeller of the SP vertical slurry pump is made of wear-resistant materials(such as highchromium alloy or rubber liners), which is suitable for handing high-concentration and high.abrasive slurry. The design has a large opening, which can pass through large particles. Theimpeller is the core component of the pump, which is responsible for converting the power of themotor into the flow of liquid. The design of the impeller affects the efficiency of the pump and theability to pass particles.
Discharge Pipe
The discharge pipe is made of high-strength material, which can withstand high-pressure andhigh-flow liquid transportation. The discharge pipe is used to guide the fow of the liquid pumpedto the designated location.
Pump Casing
The pump casing is made of corrosion-resistant and wear-resistant alloy or rubber liner, to ensure
that the pump casing maintains long-term stable operation under harsh works conditions. Thepump casing is the shell of the pump, which is responsible for accommodating and protectingother pump components while providing a path for liquid flow. The wear resistance of the pumpcasing determine the service life of the pump.
Strainer
The strainer is made of corrosion-resistant and wear-resistant metal material, and the filter hole isdesigned to ensure that the liquid circulation is not hindered. The upper strainer to flter the largeparticles is the slurry entering the pump to prevent the particles from entering the pump casingand causing damage.
Back Liner
Back liners are usually made of high chrome alloy or natural rubber for high abrasion and corrosion
resistance
Quick selection chart for PV/PVJ pumps
Application Cases
Typical applications
• Floor sumps in process plants
• Mining and mineral processing
• Sludge pits
• Wastewater reclamation
• FGD accident sump
• Chemical industry
• Other sump or pit applications
Vertical Sump Slurry Pumps
We are a one-stop vertical slurry pump manufacturer and supplier from China. Our PV series vertical centrifugal slurry pumps, also known as vertical sump, spindle, or cantilever slurry pumps, feature a single-casing vertical structure with high-chrome alloy wet parts.
FAQ
What is a sump pump?
A sump pump is a pump used to remove water that has accumulated in a water-collecting sump basin, commonly found in the basements of homes and other buildings.
What is the ues of the sump pump?
The job of a sump pump is to divert the water from inside your basement to a location outside of the home. A sump pump is usually installed in a sump pump pit, which store the water. When the water reaches a certain level, it trigger the sump pump to activate.
How much does a sump pump cost?
In an average domestic property you can expect it to cost up to £600 plus VAT for a replacement sump pump to be installed. However, this is dependent on whether any additional pipework is required. Also, if larger pumps or foul pumps are required, then the cost can potentially be higher than the average.
What's the difference between slurry pumps and sewage pumps?
Slurry pumps are specifically designed to handle higher concentrations of abrasive solids (up to 70% by weight) compared to sewage pumps, which typically handle fluids with lower solid content. Slurry pumps feature improved wear protection and specialized impeller designs.[Detail About Difference between Slurry Pumps And Submersible Sewage Pumps]