BE1020457A5 - TRANSFERRING FORCES FROM MULTIPLE POWER SOURCES TO AN AXIS. - Google Patents

Abstract

The technical field of the invention is mechanics. The forces from multiple power sources are transferred to one axis with a hydraulic system and can all be utilized on the same axis. Every power source drives a hydraulic pump, the hydraulic energy of that pump is transferred to a joint hydraulic motor with a hydraulic installation. The forces from those sources of power are thus transferred to the motor shaft of the hydraulic motor. This invention can be used for driving a machine with a shaft drive, the drive then taking place with the motor shaft of the hydraulic motor.

Description

Description:

The transmitter! of the forces from multiple power sources to one axis

The technical field of the invention is mechanics.

To be able to transfer the forces from multiple power sources to one axis, a hydraulic installation with one hydraulic motor is used here. The common hydraulic motor is a piston engine. The forces of those power sources that must be transferred are transferred to a single axle with a hydraulic system and can all be used on the same axle. This axle is the crankshaft of the hydraulic motor.

Every power source must drive a hydraulic pump. The power of each power source must realize a rotating movement such as, for example, with a windmill, this is necessary for driving a hydraulic pump. The power of each power source is converted with the hydraulic pump from that power source to hydraulic energy. The hydraulic installation must be equipped with the necessary pressure regulators for the proper functioning of this installation, such as the hydraulic motor.

In order to determine the order of the transmission and to know which power source uses which hydraulic pump and cylinder, these are numbered. The first power source is number one, the second power source is number two and so on. Hydraulic pump number one is powered by power source one, hydraulic pump number two is powered by power source two and so on. The cylinder number one of the hydraulic motor is used by hydraulic pump one, the cylinder number two of the hydraulic motor is used by hydraulic pump two and so on. The order that the cylinders are used is that for a good crankshaft load of a multi-cylinder engine.

The forces of the power sources are transferred hydraulically from one source of power to each cylinder of the hydraulic motor power source after power source. The hydraulic energy from power source one that comes from hydraulic pump one and goes to cylinder one first. Then the hydraulic energy from power source. two that comes from hydraulic pump two and goes to cylinder two and so on as much as there are power sources that each transfer hydraulic energy with their hydraulic pump. Then again the hydraulic energy from power source one that comes from hydraulic pump one and goes to cylinder one . Then again the hydraulic energy from power source two that comes from hydraulic pump two and that goes to cylinder two and so on as much as there are power sources that each transfer their hydraulic pump with hydraulic power. The sequence continues to repeat itself as long as those power sources each with their own hydraulic pump transfer hydraulic energy.

Each power source supplies the pressure to the piston of the cylinder of that power source during the stroke of work with the hydraulic pump. Each power source has its injection regulator. The injection must be controlled with injection regulators so that the time of injection for each cylinder is correct and there is a good work stroke for each piston. The hydraulic energy is then transferred with the piston-connecting rod transmission to the crankshaft of the hydraulic engine. The power from each power source is then transferred to the crankshaft of the hydraulic motor. The hydraulic fluid is removed from the cylinder after the work stroke by the piston along the outlet valve and this goes for every cylinder. That hydraulic fluid then goes to the reservoir for that fluid.

The magnitude of the forces that can be transferred depends on the capacity of the hydraulic installation. The number of power sources whose forces can be used for this installation depends on the capacity of the hydraulic installation, such as the hydraulic motor.

Depending on the capacity of the cylinder, it is also possible that the forces from several power sources are transferred to one cylinder. The power of each power source must therefore be transferred from that power source after power source and separately for that power source to that cylinder.

Instead of a hydraulic installation, it is also possible to use a compressed air installation with a compressor instead of a hydraulic pump and a compressed air motor instead of a hydraulic motor, which must then also be a piston motor.

This invention can be used for driving a machine with a shaft drive, the drive then taking place with the motor shaft of the hydraulic motor. One application for which this hydraulic installation can be used is to drive a generator for electricity production with wind energy from several wind turbines. For example, when the wind power of five wind turbines is used, the hydraulic pumps of the hydraulic installation are driven by those wind turbines. drives one hydraulic pump and there is one common hydraulic motor for the five wind turbines. The motor shaft of the hydraulic motor drives the generator. Only one generator is needed.

Claims (1)

Conclusion: The forces from multiple power sources are transferred to one axis. The forces of those sources of power are transferred to one axle with a hydraulic installation with one hydraulic motor and can all be used on the same axle. That axle is the crankshaft of the hydraulic motor. Every power source must drive a hydraulic pump, in order to be able to drive it, the power source must realize a rotating movement. Each power source has its hydraulic pump with which the power is hydraulically transferred to the hydraulic motor. The common hydraulic motor is a piston engine. Each power source has one cylinder to which the hydraulic energy is transferred. To determine the order of the transmissions, every power source, every hydraulic pump and every cylinder has a number. The order that the cylinders of the hydraulic engine are used is that used for a good crankshaft load of a multi-cylinder engine. The hydraulic installation must be equipped with the necessary pressure regulators for the proper functioning of the installation, such as the hydraulic motor. The forces of those sources of power are hydraulically transferred from source to source and separately for each source of power to each cylinder of the hydraulic motor. First the hydraulic energy that comes from hydraulic pump one and goes to cylinder one. Then the hydraulic energy from source two that comes from hydraulic pump two and goes to cylinder two and so on as much as there are power sources that transfer the hydraulic energy with their hydraulic pump. Then again the hydraulic energy from power source one that comes from the hydraulic pump one and goes to cylinder one. Then again the hydraulic energy from power source two that comes from hydraulic pump two and that goes to cylinder two and so on as much as there are power sources that each transfer their hydraulic energy to the hydraulic motor. The sequence continues to repeat itself as long as those power sources, each with their hydraulic pump, transfer the hydraulic energy to the hydraulic motor. Each power source supplies the pressure on the piston of the cylinder that is used for that power source via injection of the hydraulic fluid. The injection is controlled with injection controllers so that the timing of the injection is correct for each cylinder. Every power source has its injection controller. The hydraulic energy is transferred during the work stroke with the piston-connecting rod transmission to the crankshaft of the hydraulic motor. The power from each power source is then transferred to the hydraulic motor. The invention can be used for driving a machine with a shaft drive, the drive then being with the motor shaft of the hydraulic motor. An application for which this hydraulic installation can be used is for driving a generator in wind power electricity generation of several windmills. For example, when using wind energy from five windmills, the hydraulic pumps of the hydraulic installation are driven by those windmills. Every windmill drives one hydraulic pump, there is one joint. hydraulic motor for the five windmills. The motor shaft of the hydraulic motor drives the generator. Only one generator is needed.