Tools
Attach GHS Data
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Tools Attach GHS Data |
The AttachGHSData command adds GHS (General HydroStatics) information to a Rhino model by flagging surfaces and meshes as GHS objects.
GHS geometry files analyze floating vessels (boats, ships, docks).
Creating a GHS file is a two-step process:
Before saving a GHS Geometry file, GHS data needs to be associated the surfaces or meshes through the AttachGHSData command.
The AttachGHSData command defines various parts of a GHS hull, tanks, etc. Only the information defined by the AttachGHSData command is exported to a GHS file when you use the SaveAs command to save the data.
You can define hulls, tanks, sails, and critical points to be exported to a GHS Geometry File without splitting up Rhino geometry. This includes creating tanks and compartments that are mated with the hull. The exporter has an advanced adaptive sectioning algorithm that will automatically adapt to abrupt changes in section in the hull without having to specify special station points. As you edit the Rhino model, the compartments and tanks are updated.
All data defined using this command are saved with the Rhino model and can be reused when the model is reloaded.
The Attach GHS Data dialog box is organized to accommodate the GHS file structure and provides easy access to the GHS file components.
Provide for defining descriptive text associated with a GHS model.
Sets the units preference for how the model is initially loaded into GHS. This does not affect the way points are stored in the model and can be changed in GHS using the GHS UNITS command.
These tree nodes provide for grouping GHS parts into three available categories:
Define spaces that displace water.
Define spaces that contain liquids.
Items that do not contain or displace liquids, but are used during wind heeling calculations.
A GHS part is a collection of one or more 3-dimensional volumes (components). The tree's part node will always have one or more child component nodes.
A unique 12-character name.
The fluid that this part contains. Custom fluids may be defined on the Options node of the tree.
Additional description of the part (up to 20 characters).
Add an additional 3-D volume to this part. All components in a part are treated as a single space.
The reference point is used for various purposes depending on the type of the part. For Tanks, the reference point can mark the point of suction, the point from which an ullage is taken, the point of damage or spilling, etc.
Specify the relative distance from the vessel's origin.
Pick a location in the model.
Measures the volume of a liquid inside a tank.
Select a curve that represents a sounding tube.
The curve information is copied. Deleting the curve in Rhino has no effect on the part's sounding tube definition.
Deletes the sounding tube information from a part. Removing tube information has no effect on the Rhino geometry.
Deletes the GHS part information from the Rhino model. This has no effect on the Rhino geometry.
A component is a single 3-D volume that is defined by a shape and a transformation of that shape.
Each component name must be unique for a given part.
Each component uses a single reference shape to help define its volume. Select a currently defined shape from the menu.
Edits the reference shape data.
Creates a new shape and sets the component to reference the new shape. Old referenced shape is not deleted.
Multiplier for GHS volume and waterplane calculations. These are typically 1.0 for displacers, 0.985 for tanks, and -1.0 or -0.985 for deducting components.
Specifies the mirror transformation on the referenced component.
The component is a mirror of the shape definition about the centerplane.
The component is the same as the shape definition.
The component is a combination of the shape and a shape mirrored about the centerplane.
The component's volume is actually the shape translated to a location in space based on a vector.
Define the location vector.
Optional values.
Freeboard margins relative to the deck edge.
Creates closed polylines that represent the component and show what would be saved in the GHS file.
Deletes the component definition. This does not affect Rhino geometry.
Shape definitions are independent of components. This means that multiple components can reference the same shape. This mimics the GHS file format.
Shapes can be defined as intersection of surface and bounding box or as a group of selected curves.
Shapes that are read from a geometry file with shell thickness keep the shell thickness information.
Shape names must be unique.
Select what defines the shape.
Defines the shape as the intersection of a Rhino surface and a bounding box.
Select a surface.
Defines the shape as a set of curves. This is the closest match to what is actually exported to the GHS file.
Select a set of curves that represent the stations in a shape. The curve information is copied and saved with the shape. You can delete the Rhino curves without affecting the shape definition.
Copy an existing shape definition.
Displays all of the components whose geometry is based on this shape.
Select a component and click the button to edit the component.
When selected, a preview of the selected component is displayed.
When cleared, a preview of the shape definition is displayed.
GHS represents volumes by a series of closed polylines (stations). These are cut from the meshes for Rhino geometry. This option defines the minimum number of stations to use to define the shape. Note: It usually does not take a lot of stations to get a good match to the shape. Try to keep the station count to something around 20. This only works if Refine Stations is cleared.
Automatically inserts stations and attempts to create stations where significant changes in station area or shape occur. In most cases, it is best to leave this checked.
Defines the Longitudinal, Transverse, and Vertical extents of the component. If the entire Rhino geometry is inside the box, all of the geometry will be used.
Click the button to select the extents in the model.
Fits a boundary box to the extents of Rhino geometry.
Deletes the current shape. If a component refers to this shape, the component will also be deleted.
Creates stations at the shape level.
The Critical Points page lets you define locations that are of interest during hydrostatic calculations. This could include downflooding points or measured heights above the waterline.
Specify how the Rhino coordinate system should map to the GHS coordinate system.
Maps Rhino x,y,z coordinates to longitudinal, transverse, and vertical coordinates.
Defines fluids and their specific gravities.
Defines and runs stability conditions on the model while still inside of Rhino. You must own the appropriate applications to run conditions. Contact Creative Systems (makers of GHS) for more information.
Run the analysis.
A GHS Part Maker file is a script that is processed by the Part Maker application to create or modify a GHS geometry file. In many cases this is a better alternative than the straight GHS Geometry File export because the script can be modified with notepad to include additional geometric information.
Analyze an object's mass properties
Rhinoceros 6 © 2010-2020 Robert McNeel & Associates. 11-Nov-2020