CS215812B1 - Installation of the flywheel of the hydraulic pump drive of the power circuit of the hydraulic power steering of the self-propelled working machines - Google Patents

Abstract

The purpose of the invention is to reduce external resistance during rotation of the flywheel used in the drive of the power circuit of the hydraulic power steering of self-propelled working machines, and thereby achieve a reduction in the dimensions and weight of the flywheel, reduce their aerodynamic noise during their rotation and reduce the gyroscopic resistance of the rotating parts of the chassis of the said machines during directional control. The stated purpose is achieved by the flywheel being placed in an airtight casing in a rarefied atmosphere, the negative pressure of which is created and constantly maintained by an ejector opening into the intake manifold of the engine of the self-propelled working machine, while the highest negative pressure achieved is maintained by a check valve located in the connecting pipe between the casing and the intake manifold of the engine opening into the ejector. The invention can be used in all flywheel drives of the power circuit of the power steering, especially construction, earthmoving, road, forestry and agricultural wheeled self-propelled machines of larger standard dimensions.

Description

The invention solves the flywheel bearing in the drive of an emergency or service power steering pump of building, earth and other self-propelled working machines with hydraulic power steering.

One of the known types of hydraulic power units of hydraulic power steering circuits of self-propelled working machines with the possibility of emergency control also includes unidirectional energy-conducting gears equipped with rotating flywheels. These flywheels drive the emergency steering pump or the power steering pump in systems with a single hydraulic power steering circuit in the event of a standstill of the self-propelled working machine, thereby the service power steering pump.

The flywheels are designed taking into account the energy requirements of the emergency control function and the passive resistances of their bearings, the flow resistances of the power steering hydraulic circuit, etc. These flywheels are usually stored openly under covers in various parts of self-propelled working machines or not covered in the engine compartment.

The disadvantages of these bearings are the high passive resistance of the rotating flywheels due to their friction in the air, and the associated aerodynamic noise, as well as the necessity of dimensioning the flywheel size with respect to these passive resistances and the resulting size and mass of flywheels.

The passive resistances and the associated aerodynamic noise, the size and weight of flywheels are improved by reducing the flywheel seating in the hydraulic power steering apparatus of the present invention, the flywheel being housed in an airtight housing with vacuum generated and maintained by the ejector located in the intake manifold. drive motor of the self-propelled working machine.

The described flywheel bearing not only reduces the mass of the flywheel, thereby the entire self-propelled working machine, but also reduces overall noise due to lower friction of the rotating flywheel surface in the diluted environment while lowering the power demand of the power steering gear.

The drawing shows a flywheel bearing according to the invention.

The flywheel 1 is housed in a housing 4 provided with a cover 2 with a gasket 3. From the interior of the housing 4 or cover 2, a connecting line 6 is provided with a non-return valve 5. The connecting line 6 is led to an ejector 8 located in the suction line 7 .

Due to the underpressure in the intake manifold 7 and the effect of the ejector 8, the manifold 8 generates a vacuum through the non-return valve 5 in the space between the cover 2 and the housing 4, where the rotating flywheel 1 is stored. when the kinetic energy is taken from the flywheel to drive the power steering circuit 9 in the case of emergency control, the vacuum transferred by the ejector 8 is previously maintained by the non-return valve 5 via the connecting line B to the flywheel space 1 between the cover 2 and the housing 4.

This arrangement is suitable for all types of flywheel drives of power generators of hydraulic power steering circuits of self-propelled working machines, especially larger types of wheel loaders, motor scrapers, forestry tractors and other similar machines.

Claims (1)

Bearing of the flywheel drive of the power circuit of the hydraulic power steering of self-propelled working machines equipped as a primary energy source with an internal combustion engine fitted with an intake manifold, into whose cavity an ejector is connected, further comprising a flywheel housing equipped from its interior with a non-return valve. further comprising a connecting line, further comprising a lid, a power generator INVENTION OF A _POWER STEERING CIRCUIT AND A KINMATICALLY RELATED FLYWHEEL, characterized in that the flywheel (11) is rotatably mounted in a housing (4) with a fixed power steering circuit pump (9) and covered by a lid (2), the space between the lid (2) and the housing (4) is connected via a non-return valve (5) via a connecting line (6) to an ejector (8) terminating in the suction line (7) of the internal combustion engine of a self-propelled machine.