A drive train (1) includes an internal combustion engine (2) and working hydraulics (4) having at least one hydraulic pump (7). When operated as a pump, the hydraulic pump (7) sucks hydraulic fluid from a tank (9) and delivers into a delivery line (10) that leads to the working hydraulics (4). When
A drive train (1) includes an internal combustion engine (2) and working hydraulics (4) having at least one hydraulic pump (7). When operated as a pump, the hydraulic pump (7) sucks hydraulic fluid from a tank (9) and delivers into a delivery line (10) that leads to the working hydraulics (4). When operated as a motor, the hydraulic pump (7) is supplied with hydraulic fluid from a hydraulic accumulator (25). The drive train (1) has a charge pump (20) to supply a charging circuit (23). The charge pump (20), when operated as a pump, sucks hydraulic fluid out of the tank (9) and delivers into a charge pressure line (22) that leads to a charging circuit (23), and the charge pump (20) when operated as a motor is supplied with hydraulic fluid from the hydraulic accumulator (25).
대표청구항▼
1. A drive train of a vehicle, comprising: an internal combustion engine;working hydraulics driven by the internal combustion engine, wherein the working hydraulics include at least one hydraulic pump driven by the internal combustion engine, wherein the hydraulic pump is operable as a pump and as a
1. A drive train of a vehicle, comprising: an internal combustion engine;working hydraulics driven by the internal combustion engine, wherein the working hydraulics include at least one hydraulic pump driven by the internal combustion engine, wherein the hydraulic pump is operable as a pump and as a motor, wherein the hydraulic pump, when operated as a pump, sucks hydraulic fluid from a tank on a suction side and delivers into a delivery line that leads to the working hydraulics, and wherein the hydraulic pump, when operated as a motor, is supplied with hydraulic fluid from a hydraulic accumulator on the suction side;a charge pump driven by the internal combustion engine to supply a charging circuit including at least one consumer, wherein the charge pump is operable as a pump and as a motor, wherein the charge pump, when operated as a pump, sucks hydraulic fluid out of the tank on a suction side and delivers into a charge pressure line that leads to the charging circuit, and wherein the charge pump, when operated as a motor, is supplied with hydraulic fluid from the hydraulic accumulator on the suction side,a first electrically actuated control valve to control a connection of the hydraulic accumulator with the suction side of the hydraulic pump, anda second electrically actuated control valve to control a connection of the hydraulic accumulator with the suction side of the charge pump. 2. The drive train as recited in claim 1, wherein the hydraulic pump is a hydraulic starter for starting the internal combustion engine. 3. The drive train as recited in claim 1, wherein the charge pump is a hydraulic starter for starting the internal combustion engine and/or is a booster drive to provide a boost to the running internal combustion engine. 4. The drive train as recited in claim 1, wherein the first control valve is located in a connecting line that leads from the hydraulic accumulator to an intake line of the hydraulic pump, and wherein the intake line leads from the tank to the suction side of the hydraulic pump. 5. The drive train as recited in claim 4, wherein located in the intake line that leads from the tank to the suction side of the hydraulic pump is a shutoff valve that shuts off the flow to the tank, and wherein the shut off valve is a check valve. 6. The drive train as recited in claim 1, wherein the second control valve is located in a connecting line that leads from the hydraulic accumulator to an intake line of the charge pump, and wherein the intake line leads from the tank to the suction side of the charge pump. 7. The drive train as recited in claim 6, wherein located in the intake line that leads from the tank to the suction side of the charge pump is a shutoff valve that shuts off the flow to the tank, and wherein the shutoff valve is a check valve. 8. The drive train as recited in claim 1, wherein for charging, the hydraulic accumulator is connected to the delivery line, and wherein a hydraulic fluid line that leads to the hydraulic accumulator is connected to the delivery line of the hydraulic pump that leads to the working hydraulics. 9. The drive train as recited in claim 8, wherein a shutoff valve is located in the hydraulic line. 10. The drive train as recited in claim 9, wherein the shutoff valve is a check valve that opens flow to the hydraulic accumulator automatically and as a function of pressure. 11. The drive train as recited in claim 8, including a flow control device selected from the group consisting of a throttle located in the hydraulic line. 12. The drive train as recited in claim 9, wherein the shutoff valve is an electrically actuated control valve with a closed position and an open position. 13. The drive train as recited in claim 8, wherein in the delivery line of the hydraulic pump that leads to the working hydraulics, there is a charge valve that throttles the delivery line to charge the hydraulic accumulator, and wherein the hydraulic line is connected to the delivery line upstream of the charge valve. 14. The drive train as recited in claim 13, wherein the charge valve is a retarder valve which, during a braking operation, is actuated into a throttling position which throttles the delivery line. 15. The drive train as recited in claim 1, including a pressure sensor operatively associated with the hydraulic accumulator. 16. The drive train as recited in claim 1, wherein the hydraulic pump supplies hydraulic fluid to a hydraulic steering device, and wherein a priority valve is operatively associated with the delivery side of the hydraulic pump for priority supply to the hydraulic steering system, and wherein the delivery line of the working hydraulics is connected to the output side of the priority valve. 17. The drive train as recited in claim 1, wherein the hydraulic pump and/or the charge pump are operated as motors to start the internal combustion engine. 18. The drive train as recited in claim 1, wherein the charge pump is operated as a motor to act as a booster drive when the internal combustion engine is running. 19. The drive train as recited in claim 1, wherein the hydraulic pump of the working hydraulics is a constant displacement pump with a fixed displacement volume or a variable displacement pump with a variable displacement volume. 20. The drive train as recited in claim 1, wherein the hydraulic pump is an axial piston machine or a radial piston machine or a gear machine.
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이 특허에 인용된 특허 (6)
Krittian, Lukas; Steigerwald, Martin; Oberhausser, Martin; Langen, Alfred, Drive train of a vehicle.
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