IdealRollingWheel

Simple 1-dim. model of an ideal rolling wheel without inertia

IdealRollingWheel

Library

Modelica/Mechanics/Rotational/Components

A simple kinematic model of a rolling wheel which has no inertia andno rolling resistance. This component defines the kinematic constraint:

   (flangeR.phi - internalSupportR.phi)*wheelRadius = (flangeT.s - internalSupportT.s);

IdealRollingWheel_0

Name	Label	Description	Data Type	Valid Values
mo_useSupportR	useSupportR	= true, if rotational support flange enabled, otherwise implicitly grounded	Number	0 1
mo_useSupportT	useSupportT	= true, if translational support flange enabled, otherwise implicitly grounded	Number	0 1
mo_radius	radius	Wheel radius	Scalar

Name

Label

Description

Data Type

Valid Values

mo_useSupportR

useSupportR

= true, if rotational support flange enabled, otherwise implicitly grounded

Number

0
1

mo_useSupportT

useSupportT

= true, if translational support flange enabled, otherwise implicitly grounded

Number

0
1

mo_radius

radius

Wheel radius

Scalar

IdealRollingWheel_1

Name	Label	Description	Data Type	Valid Values
mo__nmodifiers	Number of Modifiers	Specifies the number of modifiers	Number
mo__modifiers	Modifiers	Add new modifier	Structure
mo__modifiers/varname	Variable name		Cell of strings
mo__modifiers/attribute	Attribute		Cell of strings	'start' 'fixed'
mo__modifiers/value	Value

Name	Type	Description	IO Type	Number
flangeR	implicit	Flange of rotational shaft	input	1
flangeT	implicit	Flange of translational rod	output	1
Port 3	implicit	Rotational support/housing of component	input	mo_useSupportR
Port 4	implicit	Translational support/housing of component	input	mo_useSupportT