A pumping station for a pipeline, in particular an oil or gas pipeline, has a feed pump for delivering a fluid through the pipeline and a combustion engine for driving the feed pump. A hydrostatic system has a hydraulic motor for driving the combustion engine, in order to accelerate same to start-up. The hydraulic system also has a hydraulic pressure accumulator of limited volume which can be filled with a pressurized hydraulic medium to be admitted to the first hydraulic motor, thereby powering the latter. A pressure differential in the hydrostatic system prevailing over the hydraulic motor is variably adjustable, in order to accelerate the combustion engine to a predefined firing speed.

A pumping station for a pipeline, in particular an oil or gas pipeline, has a feed pump for delivering a fluid through the pipeline and a combustion engine for driving the feed pump. A hydrostatic system has a hydraulic motor for driving the combustion engine, in order to accelerate same to start-up. The hydraulic system also has a hydraulic pressure accumulator of limited volume which can be filled with a pressurized hydraulic medium to be admitted to the first hydraulic motor, thereby powering the latter. A pressure differential in the hydrostatic system prevailing over the hydraulic motor is variably adjustable, in order to accelerate the combustion engine to a predefined firing speed.

The disclosure pertains to a hybrid electric hydraulic motor system for a vehicle having a propulsion mode and a decelerating mode. The system generally includes one or more batteries for storing electricity; an electric motor operably connected to the battery; an internal combustion engine; a vehicle hydraulic system; a first hydraulic pump operably connected to the electric motor for producing hydraulic pressure; a first hydraulic motor operably connected between the first hydraulic pump and the internal combustion engine; a timer valve operably connected between the first hydraulic pump and the first hydraulic motor; a second hydraulic pump operably connected to the internal combustion engine for producing hydraulic pressure; a hydraulic reservoir for storing hydraulic liquid operably connected to the first hydraulic pump, the second hydraulic pump, and the third hydraulic pump; a second hydraulic motor operably connected to the first and second hydraulic pumps; and a motive device operably connected to the second hydraulic motor. While in the ignition stage of the propulsion mode of the system, the battery provides electricity to drive the electric motor which drives the hydraulic pump which provides hydraulic pressure to the first hydraulic motor which operates to start the internal combustion engine, wherein after ignition of the internal combustion engine, the timer valve operates to discontinue hydraulic pressure between the first hydraulic pump and the second hydraulic pump. While in the drive stage of the propulsion mode after and after ignition of the internal combustion engine, the internal combustion engine operates to drive the second hydraulic pump, wherein the first hydraulic pump and the second hydraulic pump operably combine to supply the second hydraulic motor with hydraulic pressure to drive the motive device.

The disclosure pertains to a hybrid electric hydraulic motor system for a vehicle having a propulsion mode and a decelerating mode. The system generally includes one or more batteries for storing electricity; an electric motor operably connected to the battery; an internal combustion engine; a vehicle hydraulic system; a first hydraulic pump operably connected to the electric motor for producing hydraulic pressure; a first hydraulic motor operably connected between the first hydraulic pump and the internal combustion engine; a timer valve operably connected between the first hydraulic pump and the first hydraulic motor; a second hydraulic pump operably connected to the internal combustion engine for producing hydraulic pressure; a hydraulic reservoir for storing hydraulic liquid operably connected to the first hydraulic pump, the second hydraulic pump, and the third hydraulic pump; a second hydraulic motor operably connected to the first and second hydraulic pumps; and a motive device operably connected to the second hydraulic motor. While in the ignition stage of the propulsion mode of the system, the battery provides electricity to drive the electric motor which drives the hydraulic pump which provides hydraulic pressure to the first hydraulic motor which operates to start the internal combustion engine, wherein after ignition of the internal combustion engine, the timer valve operates to discontinue hydraulic pressure between the first hydraulic pump and the second hydraulic pump. While in the drive stage of the propulsion mode after and after ignition of the internal combustion engine, the internal combustion engine operates to drive the second hydraulic pump, wherein the first hydraulic pump and the second hydraulic pump operably combine to supply the second hydraulic motor with hydraulic pressure to drive the motive device.

An axial piston machine may include a rotor mounted rotatably in a housing. The axial piston machine may also include a plurality of cylinders in which a plurality of pistons are disposed such that the plurality of pistons are translationally movable. The plurality of cylinders may be arranged in a ring-like manner around the rotor. Further, the axial piston machine may include a starter device configured to exert a pulse-like torque on the rotor to initiate a starting operation. The starter device may be couplable to the rotor.

A hydrostatic system has a pressure source and a hydraulic motor or a consumer. An additional hydraulic motor/pump unit is furnished for controlling the volumetric flow for the consumer or the power output of the hydraulic motor.

A hydrostatic system has a pressure source and a hydraulic motor or a consumer. An additional hydraulic motor/pump unit is furnished for controlling the volumetric flow for the consumer or the power output of the hydraulic motor.

A pumping station for a pipeline, in particular an oil or gas pipeline, has a feed pump for delivering a fluid through the pipeline and a combustion engine for driving the feed pump. A hydrostatic system has a hydraulic motor for driving the combustion engine, in order to accelerate same to start-up. The hydraulic system also has a hydraulic pressure accumulator of limited volume which can be filled with a pressurized hydraulic medium to be admitted to the first hydraulic motor, thereby powering the latter. A pressure differential in the hydrostatic system prevailing over the hydraulic motor is variably adjustable, in order to accelerate the combustion engine to a predefined firing speed.

A hydrostatic drive includes a diesel engine and a hydrostatic adjustable machine which supplies multiple consumers in normal operation as a pump. The machine has a pressure/flow regulator to which is communicated, according to the load-sensing principle, the highest load pressure of the consumers, in particular when the machine is operated as a pump. In order to realize a start/stop function of the diesel engine, a previously charged high-pressure reservoir supplies the hydrostatic machine, which then acts as a starter motor for the diesel engine. In order to switch from pump to starter motor, the hydro-machine is adjusted over zero. In order for this switch to take place quickly and reliably, the pressure/flow regulator is deactivated by means of a switching valve and the adjustment device is supplied with an adjustment pressure medium via the switching valve, which medium is taken from the high-pressure reservoir or from an auxiliary reservoir.

A hydrostatic drive includes a diesel engine and a hydrostatic adjustable machine which supplies multiple consumers in normal operation as a pump. The machine has a pressure/flow regulator to which is communicated, according to the load-sensing principle, the highest load pressure of the consumers, in particular when the machine is operated as a pump. In order to realize a start/stop function of the diesel engine, a previously charged high-pressure reservoir supplies the hydrostatic machine, which then acts as a starter motor for the diesel engine. In order to switch from pump to starter motor, the hydro-machine is adjusted over zero. In order for this switch to take place quickly and reliably, the pressure/flow regulator is deactivated by means of a switching valve and the adjustment device is supplied with an adjustment pressure medium via the switching valve, which medium is taken from the high-pressure reservoir or from an auxiliary reservoir.