In open-circuit hydraulic systems (1), the cross-sections of the supply lines (6) and input valves of the hydraulic pump (3) have to be large, so that sufficient flow flux can be provided. This hinders a reduction of the size of the pump and the whole hydraulic system. It is suggested that the suppl
In open-circuit hydraulic systems (1), the cross-sections of the supply lines (6) and input valves of the hydraulic pump (3) have to be large, so that sufficient flow flux can be provided. This hinders a reduction of the size of the pump and the whole hydraulic system. It is suggested that the supply flow (7) of a hydraulic pump (3) is charged by a second, charging pump (2), to a mid-pressure level (7). The cross-sections of the supply flow areas can thus be decreased.
대표청구항▼
1. A hydraulic system comprising a hydraulic high pressure pump, a hydraulic charging pump, and at least first and second hydraulic consumers, wherein an output flow of said hydraulic high pressure pump passes through the first hydraulic consumer,wherein an output hydraulic fluid flow of said hydrau
1. A hydraulic system comprising a hydraulic high pressure pump, a hydraulic charging pump, and at least first and second hydraulic consumers, wherein an output flow of said hydraulic high pressure pump passes through the first hydraulic consumer,wherein an output hydraulic fluid flow of said hydraulic charging pump passes through the second hydraulic consumer and is then combined with the output flow of the hydraulic high pressure pump after it passes through the first hydraulic consumer, the combined flow being used as an input hydraulic fluid flow of said hydraulic high pressure pump,wherein the system is adapted to feed the second hydraulic consumer from a combination of the output flows of at least a second hydraulic high pressure pump and the hydraulic charging pump,wherein a maximum flow of said output fluid flow of said hydraulic charging pump is at least 50 percent of a maximum flow rate of said input fluid flow of said hydraulic high pressure pump, andwherein the hydraulic high pressure pump is a synthetically commutated hydraulic pump having at least one actively controllable fluid inlet or outlet valve. 2. The hydraulic system according to claim 1, wherein the maximum flow rate of said output fluid flow of the hydraulic charging pump is at least essentially the same as or higher than the maximum flow rate of said input fluid flow of said hydraulic high pressure pump. 3. The hydraulic system according to claim 1, wherein the output pressure of said hydraulic charging pump is 0.3 to 10 bars. 4. The hydraulic system according claim 1, wherein the hydraulic high pressure pump and the hydraulic charging pump are driven by a single power source. 5. The hydraulic system according to claim 1, wherein the hydraulic charging pump is of a self-delimiting type. 6. The hydraulic system according to claim 1, wherein the output pressure of said hydraulic charging pump is 0.5 to 7 bars. 7. The hydraulic system according to claim 1, wherein the output pressure of said hydraulic charging pump is 1 to 5 bars. 8. The hydraulic system according to claim 1, wherein the output pressure of said hydraulic charging pump is 1.5 to 3 bars. 9. The hydraulic system according to claim 1, wherein the output pressure of said hydraulic charging pump is 2 to 2.5 bars. 10. A hydraulic system, comprising at least a first, charging stage, a second, high pressure stage, and at least first and second hydraulic consumers; wherein an output flow of the second, high pressure stage passing through the first hydraulic consumer;wherein an output hydraulic fluid flow of the first, charging stage passes through the second hydraulic consumer and is then combined with the output flow of the second, high pressure stage after it passes through the first hydraulic consumer, the combined flow being used as an input hydraulic fluid flow for the second, high pressure stage;wherein the system is adapted to feed the second hydraulic consumer from a combination of the output flows of at least a third, high pressure stage, and the first, charging stage; andwherein at least the second, high pressure stage is of a synthetically commutated type having at least one actively controllable fluid inlet or outlet valve. 11. The hydraulic system according to claim 10, wherein said charging stage comprises an impeller device. 12. The hydraulic system according to claim 10, wherein both stages are driven by a common driving shaft, and are mounted on said driving shaft.
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이 특허에 인용된 특허 (9)
Masclet Jean (Paris FR), Apparatus for eliminating the effects of cavitation in a main pump.
Nakamura Keiichi (Kariya JPX) Tanaka Tsuneo (Kariya JPX) Inaguma Yoshiharu (Kariya JPX) Shiratori Harunori (Toyota JPX), Control system for hydraulic tandem pump in motor vehicle.
Caldwell, Niall James; Edmondson, Jeremy; Robertson, Alasdair Ian Fletcher; Stein, Uwe Bernhard Pascal, Industrial system with synthetically commutated variable displacement fluid working machine.
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