Patent ID: 8505289
Filing Date: 2013-08-13
Classification: F15B

Abstract:
1. A fixed/variable hybrid system for operation of hydraulic equipment, comprising: (1) one or more fixed/variable valves, with each of the fixed/variable valves having one or more spools; (2) a fixed displacement pump, which pumps hydraulic fluid at a constant rate from a hydraulic fluid tank, and which is hydraulically connected to an open center core in each of the fixed/variable valves; (3) a variable displacement piston pump, having associated therewith a load sense signal port, wherein the variable displacement piston pump pumps hydraulic fluid at a variable rate from the hydraulic fluid tank to a power core in each of the fixed/variable valves, and wherein an increase in hydraulic fluid pressure received by the load sense signal port causes the variable displacement piston pump to pump hydraulic fluid at an increased rate, and wherein a decrease in hydraulic fluid pressure received by the load sense signal port causes the variable displacement piston pump to pump hydraulic fluid at decreased rate; (4) a tank galley in each of the fixed/variable valves that delivers hydraulic fluid to the hydraulic fluid tank; (5) an open center/power core passage hydraulically connecting the open center core and the power core associated with each of the fixed/variable valves, wherein, for each of the fixed/variable valves, the hydraulic connection between the open center core and the open center/power core passage is located between the fixed displacement pump and the first spool of the first fixed/variable valve downstream of the fixed displacement pump in the open center core; (6) a sense signal passage hydraulically connecting the open center core and the load sense signal port, wherein the hydraulic connection between the sense signal passage and the open center core is located between the fixed displacement pump and the first spool of the first fixed/variable valve downstream of the fixed displacement pump in the open center core; (7) wherein the open center core is hydraulically connected to the tank galley downstream of the last spool of the last fixed/variable valve downstream of the fixed displacement pump in the open center core; (8) wherein each spool in each fixed/variable valve has associated therewith: (A) a first hydraulic port and a second hydraulic port; (B) a first spool passage between the power core and the first hydraulic port associated with the spool, that is capable of being opened or closed depending upon the position of the spool; (C) a second spool passage between the power core and the second hydraulic port associated with the spool, that is capable of being opened or closed depending upon the position of the spool; (D) a third spool passage between the tank galley and the first hydraulic port associated with the spool, that is capable of being opened or closed depending upon the position of the spool; (E) a fourth spool passage between the tank galley and the second hydraulic port associated with the spool, that is capable of being opened or closed depending upon the position of the spool; (F) a fifth spool passage, wherein the open center core passes through the fifth spool passage, and wherein, depending upon the position of the spool, the spool may permit hydraulic fluid to flow through the fifth spool passage and the open center core in an unrestricted manner, or the spool may partially restrict the hydraulic fluid flowing through the fifth spool passage and the open center core; (9) wherein each spool has at least a neutral position, a first non-neutral position, and a second non-neutral position, wherein: (A) in the neutral position, the spool permits hydraulic fluid to flow through the fifth spool passage and the open center core passing therethrough in an unrestricted manner, and the spool blocks the flow of hydraulic fluid through the first spool passage, the second spool passage, the third spool passage, and the fourth spool passage, (B) in the first non-neutral position, the spool partially restricts the flow of hydraulic fluid through the fifth spool passage and the open center core passing therethrough, the spool opens the first spool passage between the power core and the first hydraulic port associated with the spool allowing hydraulic fluid to flow from the power core to the first hydraulic port, the spool opens the fourth spool passage between the tank galley and the second hydraulic port associated with the spool allowing hydraulic fluid to flow from the second hydraulic port to the tank galley, the spool closes the second spool passage between the power core and the second hydraulic port associated with the spool, and the spool closes the third spool passage between the tank galley and the first hydraulic port associated with the spool; and (C) in the second non-neutral position, the spool partially restricts the flow of hydraulic fluid through the fifth spool passage and the open center core passing therethrough, the spool opens the second spool passage between the power core and the second hydraulic port associated with the spool allowing hydraulic fluid to flow from the power core to the second hydraulic port, the spool opens the third spool passage between the tank galley and the first hydraulic port associated with the spool allowing hydraulic fluid to flow from the first hydraulic port to the tank galley, the spool closes the first spool passage between the power core and the first hydraulic port associated with the spool, and the spool closes the fourth spool passage between the tank galley and the second hydraulic port associated with the spool; (10) wherein when activation of one or more of the spools of one or more of the fixed/variable valves occurs in a manner causing said one or more of the of the activated spools to be in the first non-neutral position, each of the spools so activated causes a partial restriction in the fifth spool passage of each of the activated spools in the first non-neutral position and in the open center core passing therethrough, (A) causing the hydraulic fluid pumped at a constant rate by the fixed displacement pump through the open center core to increase in pressure between the fixed displacement pump and the one or more restrictions caused by each of said activated spools that are in the first non-neutral position, (B) further causing the increased hydraulic fluid pressure in the open center core to be hydraulically communicated through the sense signal passage to the load sense signal port, (C) with the increase in hydraulic fluid pressure received by the load sense signal port causing the variable displacement piston pump to pump hydraulic fluid at an increased rate to the power core of each of the fixed variable valves, increasing the hydraulic fluid flow and hydraulic fluid pressure in the power core, (D) wherein each of the activated spools in the first non-neutral position permits hydraulic fluid in the power core having increased pressure to flow through the open first spool passage to the first hydraulic port associated with each activated spool in the first non-neutral position; and (11) wherein when activation of one or more of the spools of one or more of the fixed/variable valves occurs in a manner causing said one or more of the activated spools to be in the second non-neutral position, each of the spools so activated causes a partial restriction in the fifth spool passage of each of the activated spools in the second non-neutral position and in the open center core passing therethrough, (A) causing the hydraulic fluid pumped at a constant rate by the fixed displacement pump through the open center core to increase in pressure between the fixed displacement pump and the one or more restrictions caused by each of said activated spools that are in the second non-neutral position, (B) further causing the increased hydraulic fluid pressure in the open center core to be hydraulically communicated through the sense signal passage to the load sense signal port, (C) with the increase in hydraulic fluid pressure received by the load sense signal port causing the variable displacement piston pump to pump hydraulic fluid at an increased rate to the power core of each of the fixed variable valves, increasing the hydraulic fluid flow and hydraulic fluid pressure in the power core, (D) wherein each of the activated spools in the second non-neutral position permits hydraulic fluid in the power core having increased pressure to flow through the open second spool passage to the second hydraulic port associated with each activated spool in the second non-neutral position.