Abstract

Efficiency improvement of an axial piston pump or motor is an important part in the design and development process. The behaviour of an axial piston pump or other displacement machines is a complex interaction between tribology of sliding contacts, pressure gradient in hydraulic volumes and dynamics and kinematics. Simulation programs are useful development tools to design these fluid power components on digital computers. At present all these programs are stand-alone tools and specialised to calculate a specific behaviour or effect of an axial piston pump or motor. To reproduce and to solve all this physical effects numerically in one program is impractical. Since the opportunity exists to couple standardised products, this is a promising approach.

The paper presents a simulation approach of a displacement machine (axial piston pump in swash plate design) using two different kinds of simulation programs. The tribology, e.g. surface roughness, mixed lubrication and contact pressure, and the hydraulic, e.g. the computed pressure gradient and flows, are calculated numerically by means of DSHplus. The integration of all kind of forces and torque, e.g. mass moment of inertia and pressure forces, to solve the equation of motion is calculated with a multiple body simulation program, in this case ADAMS by Mechanical Dynamics.

The flexible modelling of mechanical structures in ADAMS makes it possible to create various simulation models of motion, such as cylinders and valves. The mechanical simulation program is coupled with the hydraulic simulation program DSHplus. Both programs run simultaneously on PCs and exchange data in discrete simulation time intervals.

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