Versatile Metering Indicators for Varied Industrial Applications
The latest metering indicators are meticulously designed in 3/4 inch, 1-inch, 3/8 inch, 1/2inch sizes to cater to a wide array of applications across various industries. They are perfect for fluid systems in different sectors such as processing, manufacturing plants, and more. They are highly compatible with different mediums like water, oil, petrochemicals, and are suitable for hygienic area systems where cooling or liquid transfer operations are vital.
Sophisticated Design and Functionality
Elesa's new visual flow indicator sensors can be mounted in any external position in perfect alignment with the indicator tube, facilitating operation in two-way liquid flows with a viscosity below 30cSt. These Axial flow devices integrate into the moving fluid, causing the rotor to spin and generate a pulsed signal. This signal, proportional to rotor speed, offers accurate flow rate data through calibration.
Careful attention must be given to ensure proper propeller rotation, as the minimum flow rate requirement may vary based on the fluid's type and viscosity. Beyond the minimum flow rate, the rotor operates at a speed in sync with the fluid flow, while the detached inductive sensor detects the movement of the metal clips on the rotor. This unique mechanism translates into a frequency variation that can be interpreted as a flow rate reading when connected to a PLC.
High-Quality Construction
Elesa's visual flow metering indicators are constructed with a red (or optionally blue) Polypropylene-based (PP) technopolymer shaft and rotor propeller, coupled with AISI 304 stainless steel sensor activating clips. The clear Borosilicate glass tubular housing not only showcases high operational resistance but is also apt for use with glycol-based solutions.
A Comprehensive Range of Hydraulic Solutions
ELESA continues to push the boundaries of hydraulic system components, offering a wide spectrum of reliable and high-performance accessories to meet the demands of increasingly complex hydraulic systems.