System and method for controlling hydraulic fluid flow within a work vehicle using flow control valves

The invention claimed is: 1. A system for controlling hydraulic fluid flow within a work vehicle, the system comprising: a hydraulic actuator; a pump configured to supply hydraulic fluid to the hydraulic actuator via a fluid supply conduit; a flow control valve defining an adjustable orifice, the flow control valve being fluidly coupled to the fluid supply conduit upstream of the hydraulic actuator such that the flow control valve is configured to control a flow rate of the hydraulic fluid to the hydraulic actuator; a load sense conduit fluidly coupled to the fluid supply conduit downstream of the flow control valve, wherein the operation of the pump is controlled based on a pressure of the hydraulic fluid within the load sense conduit; a pressure relief valve fluidly coupled to the load sense conduit, the pressure relief valve configured to selectively permit a portion of the hydraulic fluid within the load sense conduit to flow to a reservoir; and a computing system configured to: receive an input associated with a selected flow rate of the hydraulic fluid being supplied to the hydraulic actuator; control an operation of the flow control valve such that flow control valve is at a maximum flow position at which the adjustable orifice has a maximum cross-sectional area; control an operation of the pump based on a pressure of the hydraulic fluid within the load sense conduit such that the pump supplies the hydraulic fluid to the hydraulic actuator through the adjustable orifice at the selected flow rate, wherein, when controlling the operation of the pump, the computing system is configured to initiate an adjustment of a pressure of the hydraulic fluid discharged into the fluid supply conduit such that the hydraulic fluid is supplied to the hydraulic actuator through the adjustable orifice at the selected flow rate; and control an operation of the pressure relief valve to adjust the pressure of the hydraulic fluid within the load sense conduit. 2. The system of claim 1 , further comprising: a compensator valve fluidly coupled to fluid supply conduit downstream of the flow control valve. 3. A system for controlling hydraulic fluid flow within a work vehicle, the system comprising: a first hydraulic actuator; a second hydraulic actuator in parallel with the first hydraulic actuator; a pump configured to supply hydraulic fluid to the first hydraulic actuator via a first fluid supply conduit and the second hydraulic actuator via a second fluid supply conduit; a first flow control valve defining an adjustable orifice, the first flow control valve being fluidly coupled to the first fluid supply conduit upstream of the first hydraulic actuator such that the first flow control valve is configured to control a flow rate of the hydraulic fluid to the first hydraulic actuator; a second flow control valve defining an adjustable orifice, the second flow control valve being fluidly coupled to the second fluid supply conduit upstream of the second hydraulic actuator such that the second flow control valve is configured to control a flow rate of the hydraulic fluid to the second hydraulic actuator; a load sense conduit selectively fluidly coupled to the first and second fluid supply conduits, the load sense conduit configured to receive hydraulic fluid from the first or second fluid supply conduit in which the hydraulic fluid is at a greater pressure; and a computing system configured to: receive a first input associated with a first selected flow rate of the hydraulic fluid being supplied to the first hydraulic actuator; receive a second input associated with a second selected flow rate of the hydraulic fluid being supplied to the second hydraulic actuator; control an operation of one of the first or second flow control valve associated with a greater of the first or second selected flow rates such that the one of the first or second flow control valves is at a maximum flow position at which the adjustable orifice has a maximum cross-sectional area; control an operation of another of the first or second flow control valves based on the first and second selected flow rates; and control an operation of the pump such that the pump supplies the hydraulic fluid to the first hydraulic actuator through the adjustable orifice of the first flow control valve at the first selected flow rate and the second hydraulic actuator through the adjustable orifice of the second flow control valve at the second selected flow rate, wherein when controlling the operation of the pump, the computing system is configured to initiate an adjustment of a pressure of the hydraulic fluid discharged into the first and second fluid supply conduits such that the hydraulic fluid is supplied to the first hydraulic actuator through the adjustable orifice of the first flow control valve at the first selected flow rate and the hydraulic fluid is supplied to the second hydraulic actuator through the adjustable orifice of the second flow control valve at the second selected flow rate. 4. The system of claim 3 , wherein, when controlling the operation of the other of the first or second flow control valves, the computing system is configured to control the operation of the other of the first or second flow control valves based on a ratio of the first and second selected flow rates. 5. The system of claim 3 , wherein the computing system is further configured to initiate an adjustment to the pressure of the hydraulic fluid within the load sense conduit to control the operation of the pump. 6. The system of claim 5 , further comprising: a pressure-reducing valve fluidly coupled to the load sense conduit, wherein the computing system is further configured to control an operation of the pressure-reducing valve to adjust the pressure of the hydraulic fluid within the load sense conduit.