This website is aimed exclusively at companies and legal entities under public law.

This website is aimed exclusively at companies and legal entities under public law.

Example videos

With our examples we would like to show you how easy and uncomplicated it is to use ASOM v7 and ASOMmini. Even for more complex problems, you will be able to quickly find an adequate solution.

• All
• ASOM v7
• ASOMmini
• All
• ASOM v7
• ASOMmini
Kinematics of an Umbrella in ASOMmini

This example video shows how a typical umbrella can be modeled and analyzed kinematically in ASOMmini.

Kinematics of an Umbrella in ASOM v7

In this video the example of a typical umbrella is used to demonstrate how to purposefully create variations of a kinematic system in ASOM v7 in order to find better solutions.

Complex movements using the example of a rolling bridge

This video shows how complex sequences of motions can be created and analyzed with the kinematics software ASOM v7 using the example of a rolling bridge.

Flap door for kitchen cabinet with spring support in ASOMmini

This example shows that the force conditions for a six-bar hinge mechanism on the flap door of a kitchen cabinet (see last video) can also be checked quickly and easily with the kinematics software ASOMmini.

Flap door for kitchen wall unit with spring support

This example shows how the force conditions for a six-bar hinge mechanism on the flap door of a kitchen wall unit can be checked quickly and easily with the kinematics software ASOM v7.

Rear spoiler design with ASOM v7: six-bar linkage with 3 planes (2/2)

In cases where a third plane condition is not offered by a synthesis, script data sources can also be used as an even more convenient way to check a middle plane condition by reproducing the relevant part of the canvas in a diagram and adding some extra indications.

Rear spoiler design with ASOM v7: six-bar linkage with 3 planes (1/2)

In cases where a third plane condition is not offered by a synthesis, you can, for example, alternatively use our script system together with diagrams, to check in real time how well a middle plane condition is met.

Four-bar system and manual force in ASOMmini

Use the new manual force element in ASOMmini (version 1.1 and higher) to see in real time how the necessary manual force to drive your system with its pre-defined motion profile develops while changes are made.

In the fifth and last part of our series, we will look at the isosceles linkages: isosceles double-crank, isosceles crank-rocker and the rhombus-crank.

Video series on four-bar linkages in ASOMmini (4/5): Parallel- and Antiparallel-Crank

In the fourth part of our series, we will cover the parallel-crank and antiparallel-crank.

Video series on four-bar linkages in ASOMmini (3/5): The Double-Rocker

In this third part of our series, we will discuss the double-rocker. In this type of four-bar linkage, both grounded links are not able to revolve fully.

Video series on four-bar linkages in ASOMmini (2/5): The Double-Crank

We continue our video series with the double-crank. In contrast to the crank-rocker, in a double-crank mechanism both grounded links can revolve fully, which is where its name comes from.