Text Format : Assembly Unit

Summary


  • Create a Assembly Unit by importing information written in a predefined Text format.

  • The text file format is CSV (Comma-Separated Values) in UTF-8 format, so you must save it in that format before importing.

 

How to Run


[Base Mode]

  • Ribbon Menu > [Base] Tab > [Library] Group > Assembly > Text File

 

Explanation



*SETTING

 

;NAME

UNIT LENGTH

DIRECTION

ALIGN TYPE

;NAME

UNIT LENGTH

DIRECTION

ALIGN TYPE

Assembly unit-1

0.0000

(blank)

auto

  • NAME: Name of Assembly Unit

  • UNIT LENGTH: Unit length of Assembly Unit

  • DIRECTION: Direction of Default Constraint Path

    • blank condition

      • Assembly unit is always blank

  • ALIGN TYPE : Set the Global-Z Axis Orientation of the Assembly Unit space

    • value (default : auto)

      • tangential

      • parallel

      • auto


*CONSTRAINT_PLANE

 

;NAME

LOCATION

MEASURE

ALIGN ORIGIN

RATIO

SKEW

REFERENCE POINT

ROTATION ANGLE

;NAME

LOCATION

MEASURE

ALIGN ORIGIN

RATIO

SKEW

REFERENCE POINT

ROTATION ANGLE

Plane-1

0.0000

by distance

start

(blank)

0

(blank)

(blank)

Plane-2

0.0000

by ratio

(blank)

(blank)

1

start

angle

Plane-3

0.0000

by distance

user

0.0000

1

end

parallel

  • NAME : Name of Constraint Plane

  • LOCATION : Location of the Constraint Plane (Distance from Default Constraint Path start point)

  • MEASURE : Calculating method of position of Constraint Plane

    • value

      • by distance

      • by ratio

  • ALIGN ORIGIN: Base Points for Calculating Constraint Plane Positions

    • value

      • start

      • end

      • user

    • blank condition

      • MEASURE = “by ratio”

  • RATIO: Position of the reference point (Ratio)

    • blank condition

      • MEASURE = “by ratio”

      • ALIGN ORIGIN = “start” or “end”

  • SKEW: Skew Option when assigning to layout

    • value

      • 0

        • Non-Skew

      • 1

        • Applied Skew

  • REFERENCE POINT: Reference point for Skew value (relative to the assigned Segment)

    • value

      • start

      • end

    • blank condition

      • SKEW = “0”

  • ROTATION ANGLE : Applied method of Skew

    • value (default : angle)

      • angle

        • Rotates the reference point by its skew value

      • parallel

        • Rotates in a direction parallel to the Plane of the reference point.

    • blank condition

      • SKEW = “0”


*MAIN_CONSTRAINT_PATH

 

;NAME

PLANE
(START)

PLANE
(END)

VARIABLE PATH

OFFSET-Y
(START)

OFFSET-Z
(START)

OFFSET-Y
(END)

OFFSET-Z
(END)

VARIATION TYPE
(Y-AXIS)

ORDER
(Y-AXIS)

RADIUS
(Y-AXIS)

CONVEXITY
(Y-AXIS)

VARIATION TYPE
(Z-AXIS)

ORDER
(Z-AXIS)

RADIUS
(Z-AXIS)

CONVEXITY
(Z-AXIS)

REFERENCE POINT

CALCULATION POINT

;NAME

PLANE
(START)

PLANE
(END)

VARIABLE PATH

OFFSET-Y
(START)

OFFSET-Z
(START)

OFFSET-Y
(END)

OFFSET-Z
(END)

VARIATION TYPE
(Y-AXIS)

ORDER
(Y-AXIS)

RADIUS
(Y-AXIS)

CONVEXITY
(Y-AXIS)

VARIATION TYPE
(Z-AXIS)

ORDER
(Z-AXIS)

RADIUS
(Z-AXIS)

CONVEXITY
(Z-AXIS)

REFERENCE POINT

CALCULATION POINT

Main path-1

default(start)

default(end)

0

0.0000

0.0000

(blank)

(blank)

(blank)

(blank)

(blank)

(blank)

(blank)

(blank)

(blank)

(blank)

0.0000

0.0000

Main path-2

Plane-1

Plane-2

1

0.0000

0.0000

0.0000

0.0000

linear

(blank)

(blank)

(blank)

parabolic

(blank)

(blank)

0

0.0000

0.0000

Main path-3

Plane-1

Plane-2

1

0.0000

0.0000

0.0000

0.0000

cubic

(blank)

(blank)

0

polynomial

0.0000

(blank)

0

0.0000

0.0000

Main path-4

Plane-1

Plane-2

1

0.0000

0.0000

0.0000

0.0000

arc

(blank)

0.0000

0

arc

(blank)

0.0000

0

0.0000

0.0000

  • NAME: Name of Main Constraint Path

  • PLANE(START), PLANE(END): Name of the constraint plane to which the start and end points of the Main Constraint Path are constrained.

    • value

      • default(start)

        • Start point Constraint Plane of Default Constraint Path

      • default(end)

        • End point Constraint Plane of Default Constraint Path

      • *CONSTRAINT_PLANE > NAME

  • VARIABLE PATH: Options for applying offset values to the start and end points of the Main Constraint Pathvalue

    •  

      • 0

        • Apply the same Offset value to the start and end points

      • 1

        • Apply different Offset values to start and end points

  • OFFSET-Y(START), OFFSET-Z(START): Offset values in the Y- and Z-axis directions from the start point

  • OFFSET-Y(END), OFFSET-Z(END): Offset values in the Y- and Z-axis directions from the end point

    • blank condition

      • VARIABLE PATH = “0”

  • VARIATION TYPE(Y-AXIS), VARIATION TYPE(Z-AXIS): Types of changes in curves by Y- and Z-axis direction

    • value

      • linear

      • parabolic

      • cubic

      • polynomial

      • arc

  • ORDER(Y-AXIS), ORDER(Z-AXIS): Degree of curve by Y- and Z-axis direction

    • blank condition

      • VARIATION TYPE ≠ “polynomial”

  • RADIUS(Y-AXIS), RADIUS(Z-AXIS): Radius of curve (Arc) by Y- and Z-axis direction

    • blank condition

      • VARIATION TYPE ≠ “arc”

  • CONVEXITY(Y-AXIS), CONVEXITY(Z-AXIS): Shape of curves by Y- and Z-axis direction

    • value

      • 0

        • Concave curve

      • 1

        • Convex curve

    • blank condition

      • VARIATION TYPE = “linear”

  • REFERENCE POINT: Reference point for Horizontal Distance to apply Super Elevation (coordinates in Global-Y direction)

  • CALCULATION POINT: Calculation point for Horizontal Distance for applying Super Elevation (Offset distance from Path)


*RIGID_CONSTRAINT_PATH

 

;NAME

PATH

REF. LOCATION TYPE

REF. POINT

REF. PLANE

DISTANCE TARGET

DISTANCE FROM REF.

LENGTH BETWEEN COINCIDENCE

EXTRA LENGTH
(START)

EXTRA LENGTH
(END)

DIFFERENT OFFSET

OFFSET-Y
(START)

OFFSET-Z
(START)

OFFSET-Y
(END)

OFFSET-Z
(END)

;NAME

PATH

REF. LOCATION TYPE

REF. POINT

REF. PLANE

DISTANCE TARGET

DISTANCE FROM REF.

LENGTH BETWEEN COINCIDENCE

EXTRA LENGTH
(START)

EXTRA LENGTH
(END)

DIFFERENT OFFSET

OFFSET-Y
(START)

OFFSET-Z
(START)

OFFSET-Y
(END)

OFFSET-Z
(END)

Rigid path-1

default

by point

Point-1

(blank)

start

0.0000 m

0.0000 m

0.0000 m

0.0000 m

0

0.0000 m

0.0000 m

(blank)

(blank)

Rigid path-2

Main path-1

by plane

(blank)

Plane-1

start

0.0000 m

0.0000 m

0.0000 m

0.0000 m

1

0.0000 m

0.0000 m

0.0000 m

0.0000 m

  • NAME: Name of Rigid Constraint Path

  • PATH: Name of the constraint path that the rigid constraint path is constrained.

    • value

      • default

      • *MAIN_CONSTRAINT_PATH > NAME

  • REFERENCE LOCATION TYPE: Types of Reference Locations for Calculating Rigid Constraint Paths

    • value

      • by point

      • by plane

  • REFERENCE POINT: Name of the Constraint Point corresponding to the reference position

    • value

      • *CONSTRAINT_POINT > NAME

    • blank condition

      • REFERENCE LOCATION TYPE = “by plane”

  • REFERENCE PLANE: Name of the Constraint Plane corresponding to the reference position

    • value

      • default(start)

        • Start point Constraint Plane of Default Constraint Path

      • default(end)

        • End point Constraint Plane of Default Constraint Path

      • *CONSTRAINT_PLANE > NAME

    • blank condition

      • REFERENCE LOCATION TYPE = “by point”

  • DISTANCE TARGET: Coincident Point to apply the distance from the reference location.

    • value

      • start

      • end

  • DISTANCE FROM REFERENCE: The distance from the reference location to the Coincident Point.

  • LENGTH: The length between the Start Coincident Point and the End Coincident Point.

  • EXTRA LENGTH(START), EXTRA LENGTH(END): The additional length from the Coincident Point.

  • DIFFERENT OFFSET: Option to apply Offset values for the start and end points of the Rigid Constraint Path.

    • value

      • 0

        • Apply the same Offset value to the start and end points

      • 1

        • Apply different Offset values to start and end points

  • OFFSET-Y(START), OFFSET-Z(START): Offset values in the Local Y-axis direction and Global Z-axis direction of the Rigid Constraint Path for the start point.

  • OFFSET-Y(END), OFFSET-Z(END): Offset values in the Local Y-axis direction and Global Z-axis direction of the Rigid Constraint Path for the end point.

    • blank condition

      • DIFFERENT OFFSET = “0”


*SUB_CONSTRAINT_PATH

 

;NAME

POINT
(START)

POINT
(END)

HORIZ.
(START)

VERT.
(START)

HORIZ.
(END)

VERT.
(END)

GEOMETRY
TYPE

X
(START)

Y
(START)

Z
(START)

X
(END)

Y
(END)

Z
(END)

X
(OTHER)

Y
(OTHER)

Z
(OTHER)

;NAME

POINT
(START)

POINT
(END)

HORIZ.
(START)

VERT.
(START)

HORIZ.
(END)

VERT.
(END)

GEOMETRY
TYPE

X
(START)

Y
(START)

Z
(START)

X
(END)

Y
(END)

Z
(END)

X
(OTHER)

Y
(OTHER)

Z
(OTHER)

Sub path-1

Point-1

Point-2

0

0

0

0

line

0.0000

0.0000

0.0000

0.0000

0.0000

0.0000

(blank)

(blank)

(blank)

Sub path-2

Point-3

Point-4

1

1

1

1

arc

0.0000

0.0000

0.0000

0.0000

0.0000

0.0000

0.0000

0.0000

0.0000

  • NAME : Name of Sub Constraint Path

  • POINT(START), POINT(END) : Name of the Constraint Point to which the start and end points of the Sub Constraint Path are constrained.

    • value

      • *CONSTRAINT_POINT > NAME

  • HORIZONTAL(START), VERTICAL(START) : Options for calculating coordinates at the point of the Sub Constraint Path.

    • value

      • 0

        • Applies the coordinate system of the Segment start point to which the Assembly unit is assigned.

      • 1

        • Applies the Path coordinate system of the location where the constraint point is placed.

  • HORIZONTAL(END), VERTICAL(END) : Options for calculating the coordinates of the Sub Constraint Path endpoints.

    • value

      • 0

      • 1

  • GEOMETRY TYPE : Geometry type of Sub Constraint Path

    • value

      • line

      • arc

  • X(START), Y(START), Z(START) : Coordinates of the Sub Constraint Path start point.

  • X(END), Y(END), Z(END) : Coordinates of the Sub Constraint Path end point.

  • X(OTHER), Y(OTHER), Z(OTHER) : Coordinates of the point inside the Sub Constraint Path.

    • blank condition

      • GEOMETRY TYPE = “line”


*CONSTRAINT_POINT

 

;NAME

PATH TYPE

PATH

LOCATION

MEASURE

ALIGN ORIGIN

RATIO

;NAME

PATH TYPE

PATH

LOCATION

MEASURE

ALIGN ORIGIN

RATIO

Point-1

main

default

0.0000

by distance

start

(blank)

Point-2

main

Main path-1

0.0000

by ratio

(blank)

(blank)

Point-3

rigid

Rigid path-1

0.0000

by distance

user

0.0000

  • NAME: Name of Constraint Point

  • PATH TYPE: The type of Constraint Path that the Constraint Point is constrained.

    • value

      • main

      • rigid

  • PATH: Name of the Constraint Path to which the Constraint Point is constrained.

    • value

      • If PATH TYPE is "main"

        • default

        • *MAIN_CONSTRAINT_PATH > NAME

      • If PATH TYPE is "rigid"

        • *RIGID_CONSTRAINT_PATH > NAME

  • LOCATION: Location of the Constraint Point (distance from the Constraint Path point).

  • MEASURE: Calculating method of position of Constraint Point.

    • value

      • by distance

      • by ratio

  • ALIGN ORIGIN: The base point for calculating the position of the Constraint Point.

    • value

      • start

      • end

      • user

    • blank condition

      • MEASURE = “by ratio”

  • RATIO: Position of the reference point (Ratio).

    • blank condition

      • MEASURE = “by ratio”

      • ALIGN ORIGIN = “start” or “end”


*CONSTRAINT_ARRAY_POINT

 

;NAME

PATH TYPE

PATH

MIN. CLEARANCE (START)

MIN. CLEARANCE (END)

ARRAY TYPE

DIRECTION

SPACING / DIVISION

;NAME

PATH TYPE

PATH

MIN. CLEARANCE (START)

MIN. CLEARANCE (END)

ARRAY TYPE

DIRECTION

SPACING / DIVISION

Array point-1

main

default

0.0000

0.0000

pattern spacing

positive

0.0000

Array point-3

rigid

Rigid path-1

0.0000

0.0000

uniform division

positive

0

  • NAME, PATH TYPE, PATH

    • See *CONSTRAINT_POINT

  • MINIMUM CLEARANCE(START), MINIMUM CLEARANCE(END): Clearance lengths for the Constraint Path start and end points to adjust the Array segments.

  • ARRAY TYPE: Arrangement Method for Constraint Array Point.

    • value

      • pattern spacing

      • uniform division

      • uniform max.spacing

      • uniform min.spacing

      • user defined

      • by segment

      • by layout

  • DIRECTION: Array direction of the Constraint Point.

    • value

      • positive

      • negative

  • SPACING / DIVISION: The array spacing, or number, of constraint points.


 

*PRE_PARAM_LIBRARY

 

;LIBRARY NAME

TYPE

RENAME LIBRARY

PARAMETER

;LIBRARY NAME

TYPE

RENAME LIBRARY

PARAMETER

CLB-1

curve

CLB-1_P1

Param-1

PLB-1

point

PLB-1_P2

Param-2

PLB-1

point

PLB-1_P3

Param-3

  • LIBRARY NAME: The name of the Library to import.

    • The name of the Library to import that exists in the same folder as the csv.

  • TYPE: Type of Library

    • value

      • curve

        • curve library

      • point

        • Point library

  • RENAME LIBRARY: The name of the change after applying the parameter.

    • Note!

      • Do not apply the same name as LIBRARY NAME.

  • PARAMETER : Name of the Parameter Set to apply to the assigned library

    • value

      • *BASE_PARAMETER_FOR_LIBRARY의 Parameter Set Name

    • Note!

      • If there is no value, apply the Default Assigned Parameter.

 


 

*BASE_PARAMETER_FOR_LIBRARY

 

  • Create a *BASE_PARAMETER_FOR_LIBRARY for each parameter set.

  • Write the Name of the Parameter Set in the cell to the right of Keyword(*BASE_PARAMETER_FOR_LIBRARY) (Column B).

;PARAMETER NAME

VALUE

;PARAMETER NAME

VALUE

Width

0.0000

Height

0.0000

Thckness

0.0000

  • PARAMETER NAME : Name of the parameter

    • Enter the same name as the Parameter Name defined in Base Parameter for the Library to import.

  • VALUE : The value of the variable in Parameter.

    • Value has the following units.

      • LENGTH : m

      • ANGLE : deg

      • COORDINATE : m


*POINT_LIBRARY

 

;NAME

POINT

HORIZ.

VERT.

X

Y

Z

VXX

VXY

VXZ

VYX

VYY

VYZ

PARAMETER

;NAME

POINT

HORIZ.

VERT.

X

Y

Z

VXX

VXY

VXZ

VYX

VYY

VYZ

PARAMETER

Point library-1

Point-1

0

0

0.0000

0.0000

0.0000

0.0000

0.0000

0.0000

0.0000

0.0000

0.0000

Parameter-1

  • NAME: Name of the Point Library to assign.

    • value

      • Point Library registered in Base mode

  • POINT: Name of the Constraint (Array) Point to which the origin of the Point Library is constrained.

    • value

      • *CONSTRAINT_POINT > NAME

      • *CONSTRAINT_ARRAY_POINT > NAME

  • HORIZONTAL, VERTICAL: Options for calculating the coordinates of the Point Library origin.

    • value

      • 0

        • Applies the coordinate system of the Segment start point to which the Assembly unit is assigned.

      • 1

        • Applies the Path coordinate system of the location where the constraint point is placed.

  • X, Y, Z: The X, Y, and Z coordinates of the Point Library ori

  • VXX, VXY, VXZ: A vector value in the X-axis direction from the Point Library.

  • VYX, VYY, VYZ: A vector value in the Y-axis direction from the Point Library.

  • PARAMETER : Name of the Parameter Set to apply to the assigned library

    • value

      • *ASSIGNED_PARAMETER의 Parameter Set Name

    • Note!

      • If there is no value, apply the Default Assigned Parameter.


*CURVE_LIBRARY

 

;NAME

PATH

DIRECTION

OFFSET-Y

OFFSET-Z

ROTATION
TYPE

ANGLE

SECTION VARIATION

RIGID TYPE

REF. POINT

REF. POINT-1

REF. POINT-2

PARAMETER

;NAME

PATH

DIRECTION

OFFSET-Y

OFFSET-Z

ROTATION
TYPE

ANGLE

SECTION VARIATION

RIGID TYPE

REF. POINT

REF. POINT-1

REF. POINT-2

PARAMETER

Curve library-1

default

from start

0.0000

0.0000

all

0.0000

rigid

level

(blank)

(blank)

(blank)

Parameter-1

Curve library-2

path-1

from start

(blank)

(blank)

all

0.0000

deformed

(blank)

1

0.0000

(blank)

Parameter-2

Curve library-3

path-2

from start

(blank)

(blank)

all

0.0000

deformed

(blank)

2

0.0000

0.0000

Parameter-3

  • NAME: Name of the Curve Library to assign.

    • value

      • Curve Library registered in Base mode.

  • PATH: Name of the Constraint Path to which the Curve Library is constrained.

    • value

      • default

      • *MAIN_CONSTRAINT_PATH > NAME

      • *RIGID_CONSTRAINT_PATH > NAME

      • *SUB_CONSTRAINT_PATH > NAME

  • DIRECTION: Assignment direction in the Curve Library.

    • value

      • from start

      • from end

  • OFFSET-Y, OFFSET-Z: The offset distance in the Local Y and Local Z axis directions from the Constraint Path.

    • blank condition

      • PATH ≠ default

  • ROTATION TYPE: The type of additional rotation to apply.

    • value

      • all

        • Rotate both the offset direction and geometry.

      • offset

        • Rotate offset direction only.

      • object

        • Rotate geometry only.

  • ANGLE : Rotation angle

  • SECTION VARIATION : The type of cross-sectional change for Path Linked Entities in the Curve Library based on Super Elevation.

    • value (default : rigid)

      • rigid

        • The geometry of the user section does not change.

      • deformed

        • The geometry of the user section has changed

  • RIGID TYPE : Rotation of a fixed cross-sectional shape by Super Elevation.

    • value (default : level)

      • level

        • Section does not rotate with Super Elevation

      • rotation

        • Section rotates based on Super Elevation

    • blank condition

      • SECTION VARIATION = "deformed"

  • REFERENCE POINT : Number of reference points to apply when changing the cross-sectional shape based on Super Elevation.

    • value (default : 1)

      • 1

      • 2

    • blank condition

      • SECTION VARIATION = "rigid"

  • REFERENCE POINT-1 : Location of the first reference point (offset distance from the path to which the Curve Library is assigned).

    • blank condition

      • SECTION VARIATION = "rigid"

  • REFERENCE POINT-2 : Location of the second reference point (offset distance from the Path to which the Curve Library is assigned).

    • blank condition

      • SECTION VARIATION = “rigid"

      • REFERENCE POINT = "1"

  • PARAMETER : Name of the Parameter Set to apply to the assigned library.value

    •  

      • Parameter Set Name of *ASSIGNED_PARAMETER

    • Note!

      • If there is no value, apply the Default Assigned Parameter.


*TENDON_GROUP

 

;NAME

START POINT

X-DIR.(VX)

X-DIR.(VY)

X-DIR.(VZ)

OFFSET(HORIZ.)

OFFSET(VERT.)

ALIGN TYPE

;NAME

START POINT

X-DIR.(VX)

X-DIR.(VY)

X-DIR.(VZ)

OFFSET(HORIZ.)

OFFSET(VERT.)

ALIGN TYPE

Tendon group-1

start

0.0000

0.0000

0.0000

0.0000

0.0000

tangential

  • NAME : Name of Tendon Group

  • START POINT : The starting location of the path.

    • value

      • start

      • end

  • X-DIRECTION(VX), X-DIRECTION(VY), X-DIRECTION(VZ) : Vector value in the X axis direction of the cross section.

  • OFFSET(HORIZONTAL), OFFSET(VERTICAL) : Horizontal and vertical offset distance of reference points

  • ALIGN TYPE : Direction to track the location of the Tendon Profile Point from the Tendon Path.

    • value

      • tangential

      • parallel


*TENDON_PATH

 

;GROUP

PATH-1

PATH-2

PATH-3

PATH-4

PATH-5

PATH-6

PATH-7

PATH-8

PATH-9

PATH-10

;GROUP

PATH-1

PATH-2

PATH-3

PATH-4

PATH-5

PATH-6

PATH-7

PATH-8

PATH-9

PATH-10

Tendon group-1

default

 

 

 

 

 

 

 

 

 

  • GROUP: Name of the Tendon Group

    • value

      • *TENDON_GROUP > NAME

  • PATH-#: Name of the Constraint Path to which the Tendon Group is constrained.value

    •  

      • default

      • *MAIN_CONSTRAINT_PATH > NAME

      • *RIGID_CONSTRAINT_PATH > NAME

      • *SUB_CONSTRAINT_PATH > NAME


*TENDON_ANCHORAGE

 

;NAME

USE DB

MANUFACTURER

ANCHORAGE TYPE

DB LIST

;NAME

USE DB

MANUFACTURER

ANCHORAGE TYPE

DB LIST

Anchorage-1

1

Dywidag

dead end

Dywidag P 5-4

  • NAME: Name of Tendon Anchorage

  • USE DB: Applicability of DB

    • value

      • 0

        • Not applying DB.

      • 1

        • Applied DB

  • MANUFACTURER: Manufacturer's Name

    • value

      • List of folders in the path below

        • CIM installation folder\Tendon Anchorage\

    • blank condition

      • USE DB = “0”

  • ANCHORAGE TYPE: Types of Tendon Anchorage

    • value

      • dead end

      • flat

      • plate

  • DB LIST: Name of DB

    • value

      • ex. if "MANUFACTURER = Dywidag", "ANCHORAGE TYPE = dead end"

        • “CIM installation folder\Tendon Anchorage\Dywidag” The value in the first column from the "dead end.anc" file in the folder.

    • blank condition

      • USE DB = “0”


*TENDON_PROPERTY

 

;NAME

GROUP

TENDON TYPE

TENDON DIR.

LINE TYPE

ARRAY VALUE

ARRAY NUMBER

TENDON AREA

DUCT

DUCT TYPE

DUCT DIM. 1

DUCT DIM. 2

ANCHORAGE
(START)

ANCHORAGE
(END)

;NAME

GROUP

TENDON TYPE

TENDON DIR.

LINE TYPE

ARRAY VALUE

ARRAY NUMBER

TENDON AREA

DUCT

DUCT TYPE

DUCT DIM. 1

DUCT DIM. 2

ANCHORAGE
(START)

ANCHORAGE
(END)

Tendon-1

Tendon group-1

longitudinal

(blank)

spline

(blank)

(blank)

0.0000

0

(blank)

(blank)

(blank)

 

 

Tendon-2

Tendon group-1

transverse

horizontal

spline

0.0000

0

0.0000

1

round

0.0000

(blank)

Anchorage-1

 

Tendon-3

Tendon group-1

longitudinal

(blank)

spline

(blank)

(blank)

0.0000

1

flat

0.0000

0.0000

Anchorage-1

Anchorage-1

  • NAME: Name of Tendon

  • GROUP: Name of Tendon Group

    • value

      • *TENDON_GROUP > NAME

  • TENDON TYPE: Types of Tendons

    • value

      • longitudinal

      • transverse

  • TENDON DIRECTION: Tendon Creation Direction

    • value

      • horizontal

      • vertical

    • blank condition

      • TENDON TYPE = “longitudinal”

  • LINE TYPE: Curve Types for Tendons

    • value

      • spline

      • round

      • polygonal

  • ARRAY VALUE: Array Spacing for Transverse Tendons

    • blank condition

      • TENDON TYPE = “longitudinal”

  • ARRAY NUMBER: Number of arrays of Transverse Tendons

    • blank condition

      • TENDON TYPE = “longitudinal”

  • TENDON AREA: Tendon's Area

  • DUCT: DUCT application options

    • value

      • 0

        • Not applying Duct

      • 1

        • Duct applied

  • DUCT TYPE: Types of DUCTs

    • value

      • round

      • flat

    • blank condition

      • DUCT = “0”

  • DUCT DIM. 1: The first dimension of the DUCT.

    • blank condition

      • DUCT = “0”

  • DUCT DIM. 2: The second dimension of the DUCT.

    • blank condition

      • DUCT = “0”

      • DUCT TYPE = “round”

  • ANCHORAGE(START), ANCHORAGE(END): Name of the Anchorage that is created at each end of the Tendon.

    • value

      • *TENDON_ANCHORAGE > NAME

    • If no value: Import as "None".


*TENDON_PROFILE

 

;NAME

STATION

SPAN STATION

OFFSET(HORIZ.)

OFFSET(VERT.)

STRAIGHT(START)

STRAIGHT(END)

RADIUS(HORIZ.)

RADIUS(VERT.)

;NAME

STATION

SPAN STATION

OFFSET(HORIZ.)

OFFSET(VERT.)

STRAIGHT(START)

STRAIGHT(END)

RADIUS(HORIZ.)

RADIUS(VERT.)

Tendon-1

0.0000

0.0000

0.0000

0.0000

0.0000

0.0000

0.0000

0.0000

  • NAME: Name of Tendon

    • value

      • *TENDON_PROPERTY > NAME

  • STATION: The distance from the start of the path to the coordinate point.

  • SPAN STATION: Position of coordinate points in the Span (Ratio)

  • OFFSET(HORIZ.), OFFSET(VERT.): The distance of a coordinate point in the horizontal and vertical directions from the Reference Point.

  • STRAIGHT(START), STRAIGHT(END): Straight line length from start, end from coordinate points

  • RADIUS(HORIZONTAL), RADIUS(VERTICAL): Horizontal and vertical radius from coordinate point


*BASE_PARAMETER

 

;TYPE

PARAMETER NAME

VARIABLE NAME

LENGTH

ANGLE

COORDINATE

;TYPE

PARAMETER NAME

VARIABLE NAME

LENGTH

ANGLE

COORDINATE

length

Parameter-1

a

0.00000

(blank)

(blank)

angle

Parameter-2

b

(blank)

0.00000

(blank)

coordinate

Parameter-3

c

(blank)

(blank)

0.00000

  • TYPE : Types of Parameters

    • value

      • length

      • angle

      • coordinate

  • PARAMETER NAME : Name of Parameter

  • VARIABLE NAME : Variable Name for Parameter

  • LENGTH : Length value of the parameter

    • blank condition

      • TYPE ≠ “length”

  • ANGLE : Angle value of the parameter

    • blank condition

      • TYPE ≠ “angle”

  • COORDINATE : Coordinate value of the parameter

    • blank condition

      • TYPE ≠ “coordinate”


*ASSIGNED_PARAMETER

 

  • Create an *ASSIGNED_PARAMETER for each Parameter Set.

  • Write the Name of the Parameter Set in the cell to the right of the Keyword (*ASSIGNED_PARAMETER) (Column B).

;PARAMETER NUMBER

FUNCTIONAL

EQUATION

LENGTH

ANGLE

COORDINATE

1

0

(blank)

0.00000

(blank)

(blank)

2

0

(blank)

(blank)

0.00000

(blank)

3

0

(blank)

(blank)

(blank)

0.00000

4

1

a+b+c

(blank)

(blank)

(blank)

  • PARAMETER NUMBER : Parameter's number

    • Note!

      • The first Parameter is numbered "1".

  • FUNCTIONAL : Automatic calculation of Parameter values via Equation.

    • value

      • 0

        • Entered a parameter value directly

      • 1

        • Auto-calculate Parameter values via Equation

  • EQUATION : Automatic formulas for parameter values

    • blank condition

      • FUNCTIONAL = "0"

  • LENGTH : Length value of the parameter

    • blank condition

      • FUNCTIONAL = "1"

      • Parameter type of that number ≠ "length"

  • ANGLE : Angle value of the parameter

    • blank condition

      • FUNCTIONAL = "1"

      • Parameter type of that number ≠ "angle"

  • COORDINATE : Coordinate value of the parameter

    • blank condition

      • FUNCTIONAL = "1"

      • Parameter type of that number ≠ "coordinate"


Reference Materials


  • Unzip the file to a folder and run Text format.