Automatic Hydrovalve Management Pressure - E3115-T / E4115-T
The automatic valve with hydraulic operation reduces and stabilizes the downstream pressure value based on flow rate variations, following specially created and modifiable curves, thanks to impulses provided by a programmer or an existing PLC, battery-powered or with remote control via the web using a special interface.
The valve is the ideal solution for pressure management and loss reduction, and can interface with any type of SCADA or remote control system, as well as with sensors installed at critical points of the system.
Flange drilling according to EN 1092/2, different on request.
Certification and testing according to EN 1074.
Technical design
| E3115-T | 80 | 10 16 | 28 | E35A8016PT |
| E3115-T | 100 | 10 16 | 35 | E35B1016PT |
| E3115-T | 125 | 10 16 | 51 | E35B1216PT |
| E3115-T | 150 | 10 16 | 58 | E35B1516PT |
| E3115-T | 200 | 10 | 100 | E35B2010PT |
| E3115-T | 200 | 16 | 100 | E35B2016PT |
| E3115-T | 250 | 10 | 174 | E35B2510PT |
| E3115-T | 250 | 16 | 174 | E35B2516PT |
| E3115-T | 300 | 10 | 290 | E35B3010PT |
| E3115-T | 300 | 16 | 290 | E35B3016PT |
| E3115-T | 400 | 10 | 499 | E35B4010PT |
| E3115-T | 400 | 16 | 499 | E35B4016PT |
| E3115-T | 500 | 10 | 862 | E35B5010PT |
| E3115-T | 500 | 16 | 862 | E35B5016PT |
| E3115-T | 600 | 10 | 1002 | E35B6010PT |
| E3115-T | 600 | 16 | 1002 | E35B6016PT |
| E4115-T | 40/50 | 10 16 | 22 | E45A5016PT |
| E4115-T | 65 | 10 16 | 24 | E45A6516PT |
| E4115-T | 80 | 10 16 | 29 | E45A8016PT |
| E4115-T | 100 | 10 16 | 43 | E45B1016PT |
| E4115-T | 150 | 10 16 | 87 | E45B1516PT |
| E4115-T | 200 | 10 | 140 | E45B2010PT |
| E4115-T | 200 | 16 | 140 | E45B2016PT |
| E4115-T | 250 | 10 | 250 | E45B2510PT |
| E4115-T | 250 | 16 | 250 | E45B2516PT |
| E4115-T | 300 | 10 | 424 | E45B3010PT |
| E4115-T | 300 | 16 | 424 | E45B3016PT |
| E4115-T | 400 | 10 | 784 | E45B4010PT |
| E4115-T | 400 | 16 | 784 | E45B4016PT |
| E4115-T | 600 | 10 | 2250 | E45B6010PT |
| E4115-T | 600 | 16 | 2250 | E45B6016PT |
Features
Applications
The automatic hydraulic valve, controlled by a programmer or remotely, reduces the downstream pressure in real time based on the flow rate and pressure detected at critical points in the system. The settings can be changed from any mobile device via an intuitive and functional interface.
Accessories
- Position indicator with 4-20 mA output.
- Opening/closing indicator.
- Manometers.
- Self-cleaning high capacity filter.
Directions for use
To be connected to control units with mains power supply, capable of ensuring communication via a real-time web interface, or battery powered. The choice depends on the project needs and the amount of data exchanged.
Optional configurations
- Pressure management valve with anti-reflux system.
- Pressure management valve with high sensitivity pilot.
- Valve of management pressures with solenoid control valve
Operating conditions
- Fluid: treated water.
- Minimum pressure: 1.5 bar.
- Maximum pressure: 16 bar.
- Maximum temperature: 70°C.
Reduction pilot adjustment range
- Blue spring: 0.7 to 7 bar.
- Red spring: 1.5 to 15 bar.
- Values lower than 0.7 bar available with high sensitivity pilots.
How it works
The hydraulic valve is controlled by a two-way pilot (5) connected, in the cap, to the secondary line of the circuit on which two solenoid valves (13-16) are installed that receive the signals from the control unit, in communication with the flow and pressure meters. The valve varies the value of the downstream pressure as a function of the flow rate, so that, when the system requires a higher downstream pressure value, the solenoid 13 opens, letting water into the pilot cap (5); this causes the pilot to open, a greater flow in the circuit and therefore the pressure to be reduced in the chamber 10, which causes the shutter (11) to rise. The solenoid 16, on the other hand, discharges water outside the circuit and from the pilot cap (5), with the effect of closing the pilot and the valve and reducing the flow rate.
The needle valves 14 and 17 and the barrel 15 increase the stability of the valve during regulation. The flow to and from the main chamber (10) is controlled by the regulation unit (4), which makes the opening and closing speeds of the valve independent of each other.
Installation diagram
In the following recommended installation diagram, the hydraulic valve (1) receives signals from a control unit (2), powered by the mains or battery, and connected to flow meters (3) and pressure meters (4) (the latter can also be positioned at critical points of the system). The use of combined anti-water hammer vents (6, 7) and a direct-acting relief valve (5), downstream, as protection, is recommended, in addition to the creation of a bypass with a reduction hydraulic valve.