Description
Features
Improving the Quality of High-Precision Chemical Transferring
Pulsations have been eliminated at the pump. For precise chemical transferring at a continuous flow, the XPL Series makes it possible to maintain a stable chemical concentration.
Air Chamber Response Lag
In the air chamber, “discharge delay” time lags occur between when pumping is started and when the actual flow rate becomes stabilized at the set flow rate. When pumping is stopped, “drippage” occurs when liquid continues to flow in the chamber.
Also, when the pressure is varied, the flow rate remains unstable until the air pressure in the chamber stabilizes, leading to a reduction in quality. With the XPL Series, the actual flow rate is equal to the set flow rate with no time lag. The XPL Series’ ability to provide a continuous stable supply for chemical transferring can contribute to maintaining product quality.
No Intrusion of Air or Leakage
The completely sealed structure prevents changes in liquid quality caused by air intrusion while protecting factory conditions by preventing leaks.
Wear-Resistant with No Sliding Parts
The lack of sliding parts in liquid-end components means you never have to worry about damaging slurry or about malfunctions and contamination due to pump wear even when transferring slurry.
Improving the Quality of Coating Processes
The XPL Series ensures high-quality coating by preventing coating unevenness and horizontal steps caused by pulsation as well as empty spots caused by foaming or air intrusion during feeding.
For Those Looking For Better Control…
With reciprocating pumps, slight mechanical vibrations occur due to its characteristics during feeding. Refiners control the minute fluctuations caused by those vibrations in order to establish a stable chemical supply with higher accuracy.
Smart Equipment Design for Reduced Installation Space and Costs
2-liquid mixing systems
By combining the mixing and dilution processes in-line, auxiliary equipment such as mixing tanks, agitators, and transfer pumps become unnecessary. Systems can be designed to be compact and simple.
Wide-range controlling
Using just the inverter and controller, wide-ranging 100:1 control is possible.
Automatic Control System for Reduced Management Work
The ability to measure flow using the flow meter means users can manage the feed amount in real-time as well as instantly change the flow rate using the inverter. Automatic control systems can be built easily by combining these and other measuring instruments.
“Smart” Design for Incorporating in Equipment
Compared with conventional products of similar specifications, the XPL Series offers 20% less volume and weighs 30% less.
In addition, the pump can be used in equipment even without a base, making incorporation that much more compact.
Easy Disassembly and Maintenance
Disassembly without removing piping
Liquid-end parts can be disassembled even while the piping is connected, helping to minimize work time.
Simple maintenance of liquid-end parts
Thanks to a forward layout design, the two pump heads are positioned toward the front. This makes it possible to perform maintenance even with limited space.
Customizable to Suit Applications and Requests
Specifications are flexible and can be changed to match the characteristics of transfer liquids, applications, and installation site circumstances.
Electroless nickel plating for compatibility with organic solvents
The XPL Series features electroless nickel plating, making it usable for transferring organic solvent-based chemicals. This also makes maintaining a clean process simpler.
Support for sanitary specifications
Sanitary types are also available upon request for food, medicine, fine chemicals, and other customer needs.
Smoothflow System
We offer a system that you can count on, with a design that maximizes the potential of Smoothflow technology and a configuration that puts safety and maintainability first.
Specifications
001 | 003 | 01 | 03 | 1 | 3 | |||
---|---|---|---|---|---|---|---|---|
Max. discharge volume*1 | L/min | 0.009*2 (0.01) | 0.025 (0.028) | 0.1*3 | 0.3 | 1 | 3 | |
L/h | 0.54*2 (0.6) | 1.5 (1.68) | 6*3 | 18 | 60 | 180 | ||
US G/h | 0.14 (0.15) | 0.39 (0.44) | 1.58 | 4.75 | 15.84 | 47.52 | ||
Max. discharge pressure | MPa | 1.5 | 1.0 | 0.5 | ||||
bar | 15 | 10 | 5 | |||||
psi | 217.5 | 145 | 72.5 |
- *1 Values in parentheses are for 1.0MPa.
- *2 VTCE / VTCF: 0.008L/min (0.48L/h)
- *3 High-viscosity type: 0.09L/min (5.4L/h)
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