Working Mechanism:
- The diaphragm pump starts with an intake stroke where the diaphragm moves away from the inlet valve, creating a vacuum.
- This vacuum draws the fluid or gas into the pump chamber through the inlet valve.
- As the diaphragm moves back towards the inlet valve, the volume in the chamber decreases.
- This compression action pressurises the fluid or gas inside the chamber.
- The pressure forces the outlet valve to open, allowing the fluid or gas to be expelled from the chamber.
- The diaphragm then moves back towards the outlet valve, pushing the fluid or gas out of the pump through the outlet valve.
- Once the chamber is emptied, the diaphragm returns to its original position, ready for the next intake stroke.
- The cycle repeats as long as the pump is in operation, drawing in and expelling the fluid or gas with each stroke.
Features:
- It features a patented air valve system that ensures consistent on / off reliability while maintaining superior efficiency.
- This wetted pump casing is made of polypropylene for structural rigidity and shockproof operation.
- Its leak-free bolted construction reduces downtime and ensures continuous operation, providing a greater positive seal for safe and reliable transfer of chemicals
- This pump has a santoprene diaphragm and ball material. The check seat material is also Santoprene(R), ensuring compatibility with a wide range of fluids.
Compatible Accessories:
Frequently Asked Questions:
Q. What is the maximum solid permissible for this Versa-Matic E5PP6X669C diaphragm pump?
A. The pump can handle solids with a maximum diameter of 1/16 inches and can self-prime dry up to 12 feet and wet up to 30 feet.
Q. How to mount this Versa-Matic E5PP6X669C diaphragm pump?
A. This pump has multiple ports and foot mounts with various positions to provide installation flexibility, enabling seamless integration into pre-existing setups.
Q. How to troubleshoot this diaphragm pump?
A.
- Check the inlet air line size and pressure.
- Inspect for muffler icing and restrictions.
- Inspect sealing surfaces for leaking.
- Ensure proper tubing and piping size.
- Slow the pump down to prime.
- Clear any fluid line restrictions.
Q. What specification should I consider when choosing a diaphragm pump?
A.
- Required vacuum
- Required pressure
- Sample point conditions
- Required flow rate
- Temperature and type of gas being pumped
- Ambient temperature where the pump will operate
- Distance and diameter of tubing