Flow divider are specially designed to divide the pump flow into several smaller flows and distribute them to different actuators. They are also used as aspressure intensifiers. As a substitute product for flow divider, flow divider feature a high division accuracy within 1.5%-3%, which is 4%-5% in a conventional flow divider, and it is not sensitive to oil viscosity. Choosing the right flow divider will help reduce the installation and operational costs of the hydraulic system and will conveniently realize multiple circulations, as well as help extend the pump service life.
GRH’s flow divider comes in a displacement of 0.75cc to 70cc per section and can incorporate as many as 16 sections. Based on different user applications, an GRH flow divider will install a differential pressure valve, relief valve, and anti-cavitation valve with a maximum pressure of 25MPa.
The internal structure design ensures a higher division accuracy, starting performance and longer service life. Precise part manufacturing guarantees a higher mechanical efficiency and rigorous process control ensures reliable product quality.
Our gear flow dividers play a crucial role in a variety of industries, particularly in agricultural, construction, and road machinery. These hydraulic dividers are designed to distribute hydraulic flow evenly, ensuring synchronized operation in equipment such as mobile cranes, aerial work platforms, tractors, harvesters, log splitters, forklifts, loaders, pavers, bulldozers, excavators, road rollers, and screening machines. Their ability to ensure precise flow division enhances the performance and reliability of these machines, making them indispensable in complex hydraulic systems and across various heavy machinery applications.
- Speed range: 500r/min - 2000r/min
- Working pressure: < 11bar-19bar;
- Max. output pressure: < 250bar;
- Displacement: (2cc/r-80cc/r)
- Synchronization accuracy: < ±2%
Sectional design allows for the following functions as you require:
- Equal-flow distribution
- Synchronous multiple flows
- Synchronous or independent multiple flows by combining switching valve.