A regenerative hydraulic pump that allows for efficient operation of a hydraulic system under high pressure/low flow conditions that comprises a crankshaft providing a rotating inertial mass, and a regenerative hydraulic pump cylinder that comprises a pump cylinder housing, a pump piston mechanicall
A regenerative hydraulic pump that allows for efficient operation of a hydraulic system under high pressure/low flow conditions that comprises a crankshaft providing a rotating inertial mass, and a regenerative hydraulic pump cylinder that comprises a pump cylinder housing, a pump piston mechanically connected to the crankshaft; and a compliant pressure chamber that stores a portion of the energy extracted by the pump piston during a pumping stroke for release back to the pump piston and to the crankshaft during a regenerative back stroke.
대표청구항▼
1. A regenerative hydraulic pump for efficient operation under high pressure/low flow conditions comprising: a crankshaft to provide a rotating inertial mass;at least one regenerative hydraulic pump cylinder operable with the crankshaft, comprising: a pump cylinder housing;a pump piston moveable wit
1. A regenerative hydraulic pump for efficient operation under high pressure/low flow conditions comprising: a crankshaft to provide a rotating inertial mass;at least one regenerative hydraulic pump cylinder operable with the crankshaft, comprising: a pump cylinder housing;a pump piston moveable within the pump cylinder housing and mechanically connected to the crankshaft; anda compliant pressure chamber configured to receive fluid displaced by the pump piston; anda compliant member operable with the compliant pressure chamber to store a portion of the energy extracted by the pump piston during a pumping stroke, the portion being stored as potential energy for release back to the pump piston and to the crankshaft during a selective regenerative back stroke, wherein at least a portion of the potential energy stored by the compliant member is capable of being selectively isolated from the pump piston, and wherein the compliant member is maintained by a bias having a same preset bias characteristic. 2. The regenerative hydraulic pump according to claim 1, wherein the preset bias characteristic is non-linear. 3. The regenerative hydraulic pump according to claim 1, wherein the compliant member is located outside the pump cylinder housing. 4. The regenerative hydraulic pump according to claim 3, wherein the compliant member further comprises a first pneumatic accumulator in fluid communication with an inside portion of the pump cylinder housing through a hydraulic fluid channel, and wherein the hydraulic fluid channel allows for bi-directional flow between the inside portion of the pump cylinder housing and the first pneumatic accumulator. 5. The regenerative hydraulic pump according to claim 4, wherein the compliant member further comprises at least one second pneumatic accumulator in fluid communication with the inside portion of the pump cylinder housing through a hydraulic fluid channel, and wherein the hydraulic fluid channel allows for bi-directional flow between the inside portion of the pump cylinder housing and the second pneumatic accumulator. 6. The regenerative hydraulic pump according to claim 5, wherein the second pneumatic accumulator has a different volume than the first pneumatic accumulator, and wherein the second pneumatic accumulator has a different charging pressure than the first pneumatic accumulator. 7. The regenerative hydraulic pump according to claim 5, wherein the hydraulic fluid channel to the first pneumatic accumulator and the hydraulic fluid channel to the second pneumatic accumulator are switchably controlled between an open position and a closed position to create a non-linear reaction to the pumping stroke of the pump piston. 8. A regenerative hydraulic pump system for efficient operation under high pressure/low flow conditions comprising: an internal combustion engine comprising: a crankshaft providing a rotating inertial mass;at least one power cylinder; anda power piston mechanically connected the crankshaft; anda regenerative hydraulic pump comprising: at least one pump cylinder;a pump piston mechanically connected to the crankshaft, wherein the crankshaft transfers power between the power cylinder and the regenerative hydraulic pump cylinder; anda compliant pressure chamber configured to receive fluid displaced by the pump piston; anda compliant member operable with the compliant pressure chamber to store a portion of the energy extracted by the pump piston during a pumping stroke, the portion of energy being stored as potential energy for release back to the pump piston and to the crankshaft during a selective regenerative back stroke, wherein at least a portion of the potential energy stored by the compliant member is capable of being selectively isolated from the pump piston, and wherein the compliant member is maintained by a bias having a same preset bias characteristic. 9. The regenerative hydraulic pump system according to claim 8, wherein the preset bias characteristic is non-linear. 10. The regenerative hydraulic pump system according to claim 8, wherein the compliant member is located outside the pump cylinder housing. 11. The regenerative hydraulic pump system according to claim 10, wherein the compliant member further comprises a first pneumatic accumulator in fluid communication with an inside portion of the pump cylinder housing through a hydraulic fluid channel, and wherein the hydraulic fluid channel allows for bi-directional flow between the inside portion of the pump cylinder housing and the first pneumatic accumulator. 12. The regenerative hydraulic pump system according to claim 11, wherein the compliant member further comprises at least one second pneumatic accumulator in fluid communication with the inside portion of the pump cylinder housing through a hydraulic fluid channel, and wherein the hydraulic fluid channel allows for bidirectional flow between the inside portion of the pump cylinder housing and the second pneumatic accumulator. 13. The regenerative hydraulic pump system according to claim 12, wherein the second pneumatic accumulator has a different volume than the first pneumatic accumulator, and wherein the second pneumatic accumulator has a different charging pressure than the first pneumatic accumulator. 14. The regenerative hydraulic pump system according to claim 12, wherein the hydraulic fluid channel to the first pneumatic accumulator and the hydraulic fluid channel to the second pneumatic accumulator are switchably controlled between an open position and a closed position to create a non-linear reaction to the pumping stroke of the pump piston. 15. A method for operating a regenerative hydraulic pump under high pressure/low flow conditions, comprising the steps of: connecting a pump piston of at least one regenerative hydraulic pump to a crankshaft, each regenerative hydraulic pump having a pump cylinder and a compliant pressure chamber having a compliant member, wherein the crankshaft is mechanically connected to a drive system;connecting the compliant pressure chamber to a source of low-pressure hydraulic fluid through a suction valve;connecting the compliant pressure chamber to a pressurized receiver of high-pressure hydraulic fluid through a discharge valve;causing the pump piston to draw a volume of hydraulic fluid into the compliant pressure chamber through the suction valve;causing the pump piston to pressurize the hydraulic fluid against the compliant member to store a portion of the energy of the pumping stroke as potential energy within the compliant member, until the hydraulic fluid reaches a threshold pressure sufficient to cause the hydraulic fluid to flow into the pressurized receiver through the discharge valve;isolating at least a portion of the potential energy stored by the compliant member from the pump piston; andcausing the pump piston to perform a regenerative backstroke wherein the compliant member selectively releases the stored potential energy back to the pump piston in order to the drive system connected to the crankshaft, and wherein the compliant member is maintained by a bias having a same preset bias characteristic. 16. The method of claim 15, wherein the compliant member is selected from the group consisting of a spring piston and a pneumatic accumulator. 17. A regenerative hydraulic pump for efficient operation under high pressure/low flow conditions comprising: a crankshaft to provide a rotating inertial mass;at least one regenerative hydraulic pump cylinder operable with the crankshaft, comprising: a pump cylinder housing;a pump piston moveable within the pump cylinder housing and mechanically connected to the crankshaft; anda compliant pressure chamber configured to receive fluid displaced by the pump piston; anda compliant member operable with the compliant pressure chamber to store a portion of the energy extracted by the pump piston during a pumping stroke, the portion being stored as potential energy for release back to the pump piston and to the crankshaft during a selective regenerative back stroke, wherein the potential energy stored by the compliant member is capable of being selectively isolated from the pump piston, and wherein the compliant member is maintained by a bias having a preset bias characteristic.
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