Detail Bondioli & Pavesi Bywire Modular Directional Control Valves
Bondioli & Pavesi Bywire Modular Directional Control Valves
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The ByWire modular system is composed by a wide range of standard modules that, properly assembled, obtains the logic circuit function required. This system solves even the more complex hydraulic demands. ByWire elements can be electro-proportional or on-off actuated, for parallel or tandem circuit. Elements can be pre compensated or flow sharing type, suitable for circuits with a fixed or a variable pump. In the ByWire System all exchanges and compensations take place within the body. Modules are optimized to obtain greater flow sections compared to cartridge solutions of the same external dimensions. This means a reduction in load losses and increased energy efficiency. ByWire can be configured according to the specific requirements of the circuit using various platforms.
FLOW : from 50 l/min to 250 l/min
PRESSURE : up to 300 bar
This means a reduction in load losses and increased energy efficiency.
ByWire can be configured according to the specific requirements of the circuit using various platforms.
- OC platform: This allows the hydraulic circuit to be pressurised through the ONOFF switch and offers the possibility of integrating different sized modules, including proportionally controlled ones.
- LS platform: Load Sensing control improves the performance of the valve/ pump system by reducing energy dissipation because the flow rate is adjusted according to the real needs of each function. The LS platform can be configured with variable displacement pumps or fixed displacement pumps.
- HL platform: By way of a hydraulic/electronic control system, the HL platform optimises the behaviour of the Load Sensing signal on each function according to a programmed logic. The system guarantees use of the minimum power needed for each function.
- EL platform: The entire control of adjustments and compensations takes place electronically. The sensors in the system detect the need for each individual hydraulic function of the machine, allowing rapid management in maximum precision. Maximum performance in terms of system optimization and safety.