Spur Gear
Use the Spur Gear node to model a spur gear 2D and 3D. The gear is assumed to be rigid. Select one or more domains to make them a part of the gear.
A spur gear can be connected to the following gear types:
Another Spur Gear, or a Helical Gear through the Gear Pair node.
A Worm Gear through the Worm and Wheel node.
A Spur Rack, or a Helical Rack through the Rack and Pinion node.
Any two gears or rack can be connected to each other only if they satisfy the Gear Pair Compatibility Criteria.
The gear has the following subnodes to constraint the displacement and rotation, to apply forces and moments, and to add mass and moment of inertia:
These subnodes are described in the Structural Mechanics Module User’s Guide:
Sketch
This section shows a sketch of a spur gear. Some of the inputs are also highlighted in the sketch.
Gear Properties
Specify the properties of a spur gear in this section.
Select the Gear mesh External or Internal.
Enter Number of teeth n.
Enter Pitch diameter dp.
Enter Pressure angle α.
Gear Axis
The gear axis is defined as the axis of rotation of the gear. The gear axis is defined as the axis of rotation of the gear. To define the axis, choose Specify direction or Select a parallel edge.
For Specify direction, enter a value or expression for eg. The default is (0, 0, 1). The direction is specified in the selected coordinate system.
For Select a parallel edge, an edge can be selected on the Gear Axis subnode, which is added automatically. The vector from the first to last end of the edge is used to define the gear axis. Any edge in the model can be used. Select the Reverse direction check box to reverse the direction of the gear axis.
This section is only present in 3D. In 2D, the gear axis is assumed to be the out-of-plane direction.
Density
The default Density ρ is taken From material. In this case, the material assignment for the domain supplies the mass density. For User defined enter another value or expression.
Center of Rotation
Select a Center of Rotation Center of mass, Centroid of selected entities, or User defined. The center of rotation is the point about which the rotation of the gear is interpreted.
For Center of mass, the center of rotation is taken as the center of mass of the gear.
For Centroid of selected entities select an Entity levelBoundary, Edge, or Point. The available choices depend on geometrical dimension. The center of rotation is located at the centroid of the selected entities, which do not need to be related to rigid domain itself. As a special case, you can select a single point and thus use that point as center of rotation.
For User defined, enter the Global coordinates of center of rotation, Xc, in the table.
Select the Offset check box to add an optional offset vector to the definition of the center of rotation. Enter values for the offset vector Xoffset.
The center of rotation used is the sum of the vector obtained from any of the input methods and the offset vector.
Initial Values
Select From physics interface node or Locally defined.
When From physics interface node is selected, initial values for rigid body displacement, rotation, and velocities are inherited from the physics interface level.
When Locally defined is selected, an Initial Values subnode is automatically added, in which you can initialize the rigid domain degrees of freedom.
Select a Consistent initializationDefault or Force initial values to enforce that the exact values given in this node should be maintained through the consistent initialization process. The default when the given initial values are inconsistent is to make them adapt to each other by adjusting all initial values. For Force initial values click to select the applicable check box or boxes — Translation along first axis, Translation along second axis, Translation along third axis, and Total rotation. Only the selected degrees of freedom have the initial values fixed during the consistent initialization process..
See Rigid Domain Model in the Structural Mechanics Module User’s Guide for more information.
Location in User Interface
Context Menus
Multibody Dynamics>Gears>Spur Gear
Ribbon
Physics tab with Multibody Dynamics selected:
Domains>Gears>Spur Gear