The PIUSI K600/4 is an extremely precise oval gear flow meter specifically designed for the accurate measurement and monitoring of diesel fuels, as well as HVO (Hydrotreated Vegetable Oil) and XTL (Synthetic Diesel) fluids. This special version offers an ideal solution for all industrial applications where strict quantity control and reliable data logging are essential.
The K600/4 model is a key element in the PIUSI fluid management portfolio, guaranteeing the optimization of delivery processes and the accuracy of inventory management.
In the design of the K600/4 flow meter, user-friendly operation and long-term reliability were the central focus.
Outstanding Accuracy: The oval gear technology ensures extremely high measurement accuracy, which is critical when managing large quantities of fuel.
Simple Installation and Calibration: The design of the device allows for quick and trouble-free commissioning, as well as simple on-site calibration, minimizing downtime.
Versatility: Widely applicable in various industrial sectors, especially in mining and construction, where robust and reliable measuring instruments are required.
Compatibility: Specifically suitable for measuring diesel, HVO, and XTL fuels, ensuring adaptability to future fuel types.
Pulse Output (Pulser Version): The version equipped with a pulse transmitter allows the transmission of measured data to external systems, such as Remote Displays or fleet management systems, thus integrating the measurement into the existing data processing infrastructure.
The K600/4 flow meter is the ideal choice in critical areas where accurate accounting is essential:
Mining & Construction: Strict monitoring of the fuel consumption of high-performance machinery.
Industrial Plants: On-site fuel distribution systems where precise dispensing and minimization of loss are the goals.
Fleet Management: Monitoring of high-volume fuel transfer points.
The table below summarizes the identifiers and connection parameters for the different versions of the K600/4 model.
| Product Code | Description | Connection |
|---|---|---|
| 00049700A | K600/4 Flow Meter | 1 ½” BSP |
| 000473000 | K600/4 Pulser Version | 1 ½” BSP |
| F00491000 | K600 B/3 Flow Meter | 1″ BSP |
| F00492000 | K600 B/3 with Pulse Output | 1″ BSP |
| F00492B00 | K600 B/3 With Pulse Output B100 | 1″ BSP |
General characteristics of the K600/4 oval gear flow meters (based on detailed specifications available in the downloadable datasheet):
Measurement Principle: Mechanical, Oval Gear.
Applicable Fluids: Diesel, HVO, XTL.
Accuracy Class: Generally high accuracy (e.g., ±0.5% of reading or better over the full range, see downloadable datasheet for exact specification).
Connection Type: Features BSP (British Standard Pipe) threads in various sizes (1″ or 1 ½”).
Display: Mechanical versions typically feature a mechanical register, while pulser versions provide electronic data output.
Operating Pressure: Due to its design, it is resistant to typical industrial pressure conditions.
Temperature Range: Capable of operating across a wide range, suitable for the storage and transfer conditions of diesel fuels.
The K600/4 is particularly valuable in modern fuel management systems, thanks to its pulser option.
Remote Reading and Data Collection: A K600/4 PULSER version (e.g., with part number 000473000) has a built-in or externally connectable pulser that generates an electrical signal (pulse) after every measured unit of volume. This signal is ideal for the following:
Remote Displays: Enables real-time, easily readable display of the measurement away from the installation point. This increases safety and convenience for operators.
Data Collection Systems: Pulses can be directly connected to fleet management software or dedicated PIUSI B.SMART systems, enabling automated consumption reporting, stock management, and invoicing.
Thus, the PIUSI K600/4 is not just a measuring instrument, but a reliable source of data for optimizing industrial fluid management. Its easy installation and robust construction guarantee accurate service even under the harshest operating conditions.
