The kinematics-software ASOM in the automotive industry
No matter whether you are dealing with pedestrian protection, tailgate, spoiler, pedal set, door handle, folding seat or other applications. With our kinematics-software, you can quickly and conveniently find practice-oriented solutions for most typical kinematic problems in the automotive industry.
Selected examples
Here you can find a selection of examples for typical problems from the automotive industry, which show how easy and uncomplicated they can be solved with the kinematics-software ASOM.
Kinematics of a truck lift gate in ASOM
The example shows a conceptual kinematic design for a truck tailgate lift or lift gate, as a linkage (degrees of freedom =2), driven by two hydraulic cylinders.
Variations of a Wankel engine
Examples for the simulation of 4 different rotor shape variations for a Wankel engine with our kinematics software ASOM.
Active pedestrian protection for front hatch
In this example, the kinematics software ASOM v10 is used to simulate a possible mechanism for a hood with active pedestrian protection.
ASOM as a tool for car manufacturers and suppliers
Using three brief examples (car seat, rear hatch and spoiler), we demonstrate how car manufacturers and suppliers can use the kinematics software ASOM v7 to solve typical industry-specific problems.
Kinematics of a truck lift gate
The example shows a conceptual kinematic design for a truck tailgate lift or lift gate, in form of a linkage driven by two hydraulic cylinders (i.e. with two degrees of freedom).
Multi-bar system for a foot pedal in a car
The example shows a pedal system and the corresponding motions of its kinematics in the kinematics software ASOM v7.
Implement kinematic projects for the automotive industry in a time-saving manner
ASOM has many features that are necessary or helpful when designing automotive kinematics. Use our syntheses to accurately maintain start and end positions of a motion while adjusting the geometry of your system. Use our element shadows to visualize and check arbitrary intermediate positions. Incorporate external forces, centers of gravity (including inertia effects), springs, and friction, and measure the force or torque requirements of your systems or drives. With the new parametric constraints, you can parametrically define the initial state as well as take measurements throughout the simulation. With our diagrams, which can display all measurement data from the simulated system in arbitrary combination, you will quickly get a comprehensive overview of all important data.
Would you also like to benefit from the advantages of our kinematics software?
Contact us easily and without obligation so that we can get to know each other at a first net meeting and talk about details. We are also happy to respond to your individual wishes and clarify any open questions.
