SUN HYDRAULICS
FSFCXAV
$505.83 USD
- SUN HYDRAULICS
- Material:FSFCXAV
- Model:FSFC-XAV
- Summary:Cartridge
Quantity in stock: 0
***Disclaimer: The following summary contains information gathered from various sources such as product descriptions, technical specifications and catalogs. While efforts have been made to provide accurate details, inaccuracies may occur. It is advised to verify all information by contacting Sun Hydraulics directly.***
The Sun Hydraulics FSFCXAV (Material Number: FSFCXAV) is a sliding-spool, pressure-compensated flow divider designed to split hydraulic oil flow into two different branches of a circuit in a designated ratio. This valve is particularly suitable for applications involving unidirectional hydraulic motors and hydraulic cylinders where flow division in one direction is required. Additionally, it is ideal for multiple circuits serviced from a single pump supply. The FSFCXAV model features physical interchangeability across all flow divider and divider-combiner cartridges, meaning they share the same flow path and cavity for a given frame size. Key operating characteristics of this valve include its tendency to direct the higher percentage of flow to the leg of the circuit with the greatest load when in dividing mode. This model's design incorporates Sun's floating style construction to minimize internal part binding due to excessive installation torque or cavity/cartridge machining variations. The valve operates effectively within a capacity range of 6-30 gpm (23-120 L/min) and experiences a pressure drop of 30 psi (2 bar) at minimum rated input flow, increasing to 250 psi (18 bar) at maximum rated input flow. The FSFCXAV should not be used for reverse flow as it functions solely as a divider. It requires sufficient minimum flow for proper modulation; otherwise, it acts merely as a tee until reaching this threshold. Notably, this model has an installation torque range between 350-375 lbf ft (475-508 Nm) and weighs approximately 2.80 lb (1.30 kg). For maintenance, Viton seal kits are available under part number 990034006.
The Sun Hydraulics FSFCXAV (Material Number: FSFCXAV) is a sliding-spool, pressure-compensated flow divider designed to split hydraulic oil flow into two different branches of a circuit in a designated ratio. This valve is particularly suitable for applications involving unidirectional hydraulic motors and hydraulic cylinders where flow division in one direction is required. Additionally, it is ideal for multiple circuits serviced from a single pump supply. The FSFCXAV model features physical interchangeability across all flow divider and divider-combiner cartridges, meaning they share the same flow path and cavity for a given frame size. Key operating characteristics of this valve include its tendency to direct the higher percentage of flow to the leg of the circuit with the greatest load when in dividing mode. This model's design incorporates Sun's floating style construction to minimize internal part binding due to excessive installation torque or cavity/cartridge machining variations. The valve operates effectively within a capacity range of 6-30 gpm (23-120 L/min) and experiences a pressure drop of 30 psi (2 bar) at minimum rated input flow, increasing to 250 psi (18 bar) at maximum rated input flow. The FSFCXAV should not be used for reverse flow as it functions solely as a divider. It requires sufficient minimum flow for proper modulation; otherwise, it acts merely as a tee until reaching this threshold. Notably, this model has an installation torque range between 350-375 lbf ft (475-508 Nm) and weighs approximately 2.80 lb (1.30 kg). For maintenance, Viton seal kits are available under part number 990034006.
Flow dividers are sliding-spool, pressure-compensated devices used to split oil flow to two different branches of a circuit in a designated ratio. These valves are suitable for applications that use the following: unidirectional hydraulic motors, hydraulic cylinders where flow division in one direction only is required, and multiple circuits that are serviced from one pump supply.
- All flow divider and divider/combiner cartridges are physically interchangeable (i.e. same flow path, same cavity for a given frame size).
- Operating characteristics cause the leg of the circuit with the greatest load to receive the higher percentage of flow in dividing mode. If a rigid mechanism is used to tie actuators together, the lead actuator may pull the lagging actuator and cause it to cavitate.
- In applications involving rigid mechanisms between multiple actuators, operating inaccuracy will cause the eventual lock-up of the system. If the mechanical structure is not designed to allow for the operating inaccuracy inherent in the valve, damage may occur.
- In motor circuits, rigid frames or mechanisms that tie motors together, and/or complete mechanical synchronized motion of the output shaft of the motors, either by wheels to the pavement or sprockets to conveyors, will contribute to cavitation, lock-up and/or pressure intensification.
- Variations in speed and lock-up can be attributed to differences in motor displacement, motor leakage, wheel diameter variance and friction of wheels on the driving surface.
- This valve is a divider only; any attempt to flow backwards through the valve is not advised.
- Below the minimum flow rating there is not enough flow for the valve to modulate. It is effectively a tee. If flow starts at zero and rises, there will be no dividing control until the flow reaches the minimum rating.
- Incorporates the Sun floating style construction to minimize the possibility of internal parts binding due to excessive installation torque and/or cavity/cartridge machining variations.
| Cavity | T-34A |
| Series | 4 |
| Capacity | 6 - 30 gpm23 - 120 L/min. |
| Pressure Drop at Minimum Rated Input Flow | 30 psi2 bar |
| Pressure Drop at Maximum Rated Input Flow | 250 psi18 bar |
| Valve Hex Size | 1 5/8 in.41,3 mm |
| Valve Installation Torque | 350 - 375 lbf ft475 - 508 Nm |
| Model Weight | 2.80 lb1,30 kg |
| Seal kit - Cartridge | Viton: 990-034-006 |
Show FAQ