초록 ▼

A system has a variable displacement pump that supplies pressurized fluid to power a plurality of hydraulic functions. Each hydraulic function has a control valve with a variable source orifice controlling fluid flow between the pump and a flow summation node, and a variable metering orifice control

A system has a variable displacement pump that supplies pressurized fluid to power a plurality of hydraulic functions. Each hydraulic function has a control valve with a variable source orifice controlling fluid flow between the pump and a flow summation node, and a variable metering orifice controlling fluid flow between the flow summation node and a hydraulic actuator. Variable bypass orifices in the control valves are connected in series between the flow summation node and a tank. As the metering orifice in a control valve enlarges, the source orifice enlarges and the bypass orifice shrinks. This alters pressure at the flow summation node, which is used to control the output of the pump. Components are provided to give selected hydraulic functions different levels of priority with respect to consuming fluid flow from the pump.

대표청구항 ▼

1. A control valve assembly for a hydraulic system in which a variable displacement pump sends fluid, drawn from a tank, into a supply conduit, and wherein the hydraulic system has a plurality of hydraulic actuators, the control valve assembly comprising: a flow summation node;a first supply node co

1. A control valve assembly for a hydraulic system in which a variable displacement pump sends fluid, drawn from a tank, into a supply conduit, and wherein the hydraulic system has a plurality of hydraulic actuators, the control valve assembly comprising: a flow summation node;a first supply node connected by a first passageway to the flow summation node;a second supply node;a first element defining a second passageway between the flow summation node and the second supply node and restricting fluid flow to a greater degree than restriction of fluid flow through the first passageway;a first control valve and a second control valve, each having a variable first path, a variable second path, and a variable third path;wherein the variable first paths of both the first and second control valves are connected in parallel to form a variable flow section through which fluid flows between the variable displacement pump and the flow summation node, fluid selectively flows through the variable second path of the first control valve between with the first supply node and a first hydraulic actuator, fluid selectively flows through the variable second path of the second control valve between with the second supply node and a second hydraulic actuator, and the variable third paths of both the first and second control valves are connected in series to form a bypass passage through which fluid flows between the flow summation node and the tank; anda first priority check valve through which fluid flows only in a direction into the second supply node from a point in the bypass passage that is between first and second control valves. 2. The control valve assembly as recited in claim 1 wherein the first passageway directly connects the flow summation node to the first supply node. 3. The control valve assembly as recited in claim 1 wherein the first element is a first supply orifice. 4. The control valve assembly as recited in claim 1 further comprising a fixed inlet orifice providing a fluid path between an outlet of the variable displacement pump and the flow summation node. 5. The control valve assembly as recited in claim 1 further comprising a load sense conduit through which pressure at the flow summation node is communicated to a control port of the variable displacement pump. 6. The control valve assembly as recited in claim 1 wherein in each of the first and second control valves, the variable first path enlarges as the variable second path enlarges, and the variable first path shrinks as the variable second path shrinks. 7. The control valve assembly as recited in claim 1 wherein in each of the first and second control valves, the variable third path shrinks as the variable second path enlarges, and the variable third path enlarges as the variable second path shrinks. 8. The control valve assembly as recited in claim 1 wherein in each of the first and second control valves, the variable first path enlarges and shrinks as the variable second path enlarges and shrinks, respectively; and the variable third path shrinks and enlarges as the variable second path enlarges and shrinks, respectively. 9. The control valve assembly as recited in claim 1 wherein in each of the first and second control valves, the variable first path comprises a variable source orifice; the variable second path comprises a variable metering orifice; and the variable third path comprises a variable bypass orifice. 10. The control valve assembly as recited in claim 9 wherein each of the first and second control valves further comprises a first workport to which one of the plurality of hydraulic actuators is connected; and wherein each control valve has: a) a first position in which the first workport is closed, the variable source orifice has a first size, and the variable bypass orifice has a second size, andb) a second position in which the first workport is coupled through the second path to the respective supply node, the variable source orifice has a third size that is greater than the first size, and the variable bypass orifice has a fourth size that is less than the second size. 11. The control valve assembly as recited in claim 10 wherein in each of the first and second control valves further comprises a second workport to which the one of the plurality of hydraulic actuators is connected; and each control valve has: c) a third position in which the second workport is coupled by the metering orifice to the flow summation node, the variable source orifice has a fifth size that is greater than the first size, and the variable bypass orifice has a sixth size that is less than the second size. 12. The control valve assembly as recited in claim 1 wherein the first element comprises a first supply orifice provided in the second passageway and the second supply node. 13. The control valve assembly as recited in claim 1 wherein a first supply orifice is directly connected to the flow summation node and provides a path through which fluid flows between the flow summation node and the second supply node. 14. The control valve assembly as recited in claim 1 further comprising a third control valve that is connected to a third supply node, wherein the third supply node receives fluid from the bypass passage through a second priority check valve and receives fluid from the flow summation node through a second supply orifice. 15. The control valve assembly as recited in claim 1 wherein each of the plurality of hydraulic functions further comprises a priority check valve that prevents fluid flow in a direction through the second path into the respective supply node. 16. The control valve assembly as recited in claim 1 further comprising: a third supply node;a third control valve that comprises a variable first path through which fluid flows from the supply conduit to the flow summation node, a variable second path through which fluid flows from the third supply node to a third hydraulic actuator, and a variable third path connected in the bypass passage in series with the variable third path of each of the first and second control valves;a second priority check valve through which fluid flows only in a direction into the third supply node from a point in the bypass passage that is between second and third control valves; anda second supply orifice through which fluid flows from the flow summation node to the third supply node. 17. A control valve assembly for a hydraulic system in which a variable displacement pump sends fluid, drawn from a tank, into a supply conduit, a plurality of hydraulic functions are connected to the supply conduit and to a return conduit connected to a tank, and each hydraulic function has a hydraulic actuator and a control valve that controls flow of fluid from the supply conduit to the hydraulic actuator, the control valve assembly comprising: a flow summation node;a first supply node connected to a first hydraulic function and connected to the flow summation node;a second supply node connected to a second hydraulic function;each control valve having a variable source orifice through which fluid flows from the supply conduit to the flow summation node, a variable metering orifice through which fluid flows to a respective one of the plurality of hydraulic actuators from the first or second supply node associated with the respective hydraulic function, and a variable bypass orifice, wherein the variable bypass orifices of the control valves are connected in series between the flow summation node and the return conduit thereby forming a bypass passage;a first priority check valve through which fluid flows only in a direction into the second supply node from a point in the bypass passage that is between first and second hydraulic functions; anda first supply orifice through which fluid flows from the first supply node to the second supply node. 18. The control valve assembly as recited in claim 17 further comprising a load sense conduit through which pressure at the flow summation node is communicated to a control port of the variable displacement pump. 19. The control valve assembly as recited in claim 17 wherein in each control valve, the variable source orifice enlarges and shrinks as the variable metering orifice enlarges and shrinks, respectively; and the variable bypass orifice shrinks and enlarges as the variable metering orifice enlarges and shrinks, respectively. 20. The control valve assembly as recited in claim 17 further comprising: a third supply node;another one of the plurality of control valves that includes a variable source orifice through which fluid flows from the supply conduit to the flow summation node, a variable metering orifice through which fluid flows to a respective one of the plurality of hydraulic actuators from the third supply node, and a variable bypass orifice connected in series with the variable bypass orifices of the other control valves in the bypass passage;a second priority check valve through which fluid flows only in a direction into the third supply node from a point in the bypass passage that is between second and third hydraulic functions; anda second supply orifice through which fluid flows from the second supply node to the third supply node. 21. A control valve assembly for a hydraulic system in which a variable displacement pump sends fluid drawn from a tank into a supply conduit, a plurality of hydraulic functions are connected to the supply conduit and to a return conduit connected to a tank, and each hydraulic function has a hydraulic actuator and a control valve that controls flow of fluid from the supply conduit to the hydraulic actuator, the control valve assembly comprising: a flow summation node;a first supply node connected to a first hydraulic function and connected to the flow summation node;a second supply node connected to a second hydraulic function;each control valve having a variable source orifice through which fluid flows from the supply conduit to the flow summation node, a variable metering orifice through which fluid flows to a respective one of the plurality of hydraulic actuators from the first or second supply node associated with the respective hydraulic function, and a variable bypass orifice, wherein the variable bypass orifices of the control valves are connected in series between the flow summation node and the return conduit thereby forming a bypass passage;a first priority check valve through which fluid flows only in a direction into the second supply node from a point in the bypass passage that is between the first and second hydraulic functions; anda first supply orifice connected in a first supply path that has one end directly connected to the flow summation node and another end directly connected to the second supply node. 22. The control valve assembly as recited in claim 21 further comprising a load sense conduit through which pressure at the flow summation node is communicated to a control port of the variable displacement pump. 23. The control valve assembly as recited in claim 21 wherein in each control valve, the variable source orifice enlarges and shrinks as the variable metering orifice enlarges and shrinks, respectively; and the variable bypass orifice shrinks and enlarges as the variable metering orifice enlarges and shrinks, respectively. 24. The control valve assembly as recited in claim 21 further comprising: a third supply node;another one of the plurality of control valves includes a variable source orifice through which fluid flows from the supply conduit to the flow summation node, a variable metering orifice through which fluid flows to a respective one of the plurality of hydraulic actuators from the third supply node, and a variable bypass orifice connected in series with the variable bypass orifices of the other control valves in the bypass passage;a second priority check valve through which fluid flows only in a direction into the third supply node from a point in the bypass passage that is between second and third hydraulic functions; anda second supply orifice connected in a second supply path that has one end directly connected to the flow summation node and another end directly connected to the third supply node.