Simulation of a wankel engine with ASOM
Example for the simulation of a Wankel engine with ASOM. For a triangular Wankel piston, the ratio between gear and gear ring must be a constant 2:3. This is ensured here by hidden constraints.
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With our example videos we would like to show you how easy and uncomplicated it is to use ASOM v10, ASOM v7 and ASOMmini. Even for more complex problems, you will be able to quickly find an adequate solution.
Example for the simulation of a Wankel engine with ASOM. For a triangular Wankel piston, the ratio between gear and gear ring must be a constant 2:3. This is ensured here by hidden constraints.
Example of a generic parallel pick-and-place mechanism in ASOM v10 with two degrees of freedom. The model is set up in such a way that its drive sits on the specified curve and drives the definition point over the curve with a specific speed profile.
Example for the design of a mechanism for a flush-mounted retractable door handle with separate kinematic syntheses for the two partial systems (two syntheses “in series”).
In this example, the bearing forces at a cylinder piston of a two-stroke engine are determined in a simplified way.
In this example of a four-bar linkage, multiple manual force curves are determined in real time. The concept can of course also be applied to any other type of multi-bar linkage. The kinematic analysis can also be extended, e.g. to include the determination of the corresponding bearing forces.
This example shows how to implement joint friction for revolute joints in kinematic models in ASOM. With the aid of joint friction elements, a pin diameter and a friction coefficient can be managed for each revolute joint.
This example in the kinematics software ASOM v10 shows how to implement friction for slider/rail contacts in kinematic models, e.g. to realize the friction of a block on an inclined plane.
This example of a rolling bridge in ASOM v10 demonstrates how variants in the extended motion control and multiple shadow previews can help you better understand a model without having to play back the simulation completely after each modification.
These examples show that the kinematics software ASOM v10 also makes it possible to slide and roll arbitrary shapes on arbitrary shapes.
These examples show that the kinematics software ASOM v10 also makes it possible to have arbitrary shapes slide or roll on each other.
In this example, the ASOM v10 kinematics software simulates a back hatch with gas spring support that has a hat shelf as an additional feature.
In this example, the kinematics software ASOM v10 is used to simulate a possible mechanism for a hood with active pedestrian protection.
In this example, the kinematics software ASOM v10 simulates the mechanism for a car seat in automatic mode, operated by an electric motor.
In this example, the kinematics software ASOM v10 simulates the mechanism for a car seat in manual mode, operated by a lever.
In this example, the interactive tool of two-point synthesis for four-bar systems is demonstrated in the kinematics software ASOM v10.