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General Program Information

Wiki Markup
h3. General Program Information
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[!1.bmp|width=280px!|AutoCAD Sedimentation Tank Inlet Slopes Trapezoid Program][!1b.bmp|width=380px!|AutoCAD Sedimentation Tank Inlet Slopes Trapezoid Program]
Southwest Isometric View
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h3. Input Definitions

h5. Inputs Needed to Call the Inlet Slope Trapezoid Function

origin - A 3*1 matrix with



Input Definitions

Inputs Needed to Call the Inlet Slope Trapezoid Function

origin - A 3*1 matrix with x,y,z

...

positions

...

corresponding

...

to

...

the

...

point

...

where

...

the

...

inlet

...

slope

...

will

...

be

...

drawn.

...

Length

...

-

...

length

...

of

...

the

...

slopes,

...

generally

...

the

...

length

...

of

...

the

...

sedimentation

...

tank

...

WSed - width of the sedimentation tank

lorifice - length of the opening that will allow inlet flow

horifice - height of the opening that will allow inlet flow

borifice -

thick - thickness of the slopes

n - number of orifices and sections, one section contains one orifice

bigslope - slope of the inlet in degrees

little slope -

HTrapezoid -

Inputs Defined within the Inlet Slope Trapezoid Function

verticalorigin =

  • x: origin0
  • y: origin1 - borifice - thick
  • z: origin2

verticaldim =

  • x: length/n
  • y: thick
  • z: HTrapezoid + thick*cos(bigslope)

slopeorigin =

  • x: origin0
  • y: origin1 - borifice - thick
  • z: origin2 + HTrapezoid + thick*cos(bigslope)

dim =

  • x: length/n
  • y: thick
  • z: (WSed/2 -borifice)*(1/cos(bigslope))

verticalorigindim = verticalorigin + verticaldim

boxdim = slopeorigin + dim

sideorigin =

  • x: slopeorigin1 + thick
  • y: slopeorigin2 + dim2
  • z: slopeorigin0

sideoriginrotate =

  • x: slopeorigin1 + thick
  • y: slopeorigin2
  • z: slopeorigin0

orificeorigin =

  • x: verticalorigin0 + verticaldim0/2 - lorifice/2
  • y: verticalorigin1
  • z: verticalorigin2

orificedim =

  • x: verticalorigin0 + verticaldim0/2 + lorifice/2
  • y: verticalorigin1 + verticaldim1
  • z: verticalorigin2 + horifice + (borifice*tan(littleslope))

nrow = l

ncol = n

dist = length/2

mirrorpoint1 =

  • x: origin0
  • y: origin1

mirrorpoint2 =

  • x: origin0 + zc
  • y: origin1

win1 =

  • x: origin0 - zc
  • y: origin1 - zc
  • z: origin2 - zc

win2 =

  • x: origin0 + dim0 - zc
  • y: origin1 + dim1 - zc
  • z: origin2 + dim2 - zc

Technical Program Outline

viewtop - sets the workspace so that the user is viewing the top of the object.

viewtop <-- viewtop1

Wiki Markup


verticalorigin{~}dim~ = verticalorigin + verticaldim

box{~}dim~ = slopeorigin + dim

sideorigin = 
* x: slopeorigin{~}1~ + thick
* y: slopeorigin{~}2~ + dim{~}2~
* z: slopeorigin{~}0~

sideoriginrotate = 
* x: slopeorigin{~}1~ + thick
* y: slopeorigin{~}2~ 
* z: slopeorigin{~}0~

orifice{~}origin~ = 
* x: verticalorigin{~}0~ + verticaldim{~}0~/2 - l{~}orifice~/2
* y: verticalorigin{~}1~
* z: verticalorigin{~}2~

orifice{~}dim~ =
* x: verticalorigin{~}0~ + verticaldim{~}0~/2 + l{~}orifice~/2
* y: verticalorigin{~}1~ + verticaldim{~}1~
* z: verticalorigin{~}2~ + h{~}orifice~ + (b{~}orifice~*tan(littleslope))

nrow = l

ncol = n

dist = length/2

mirror{~}point1~ =
* x: origin{~}0~
* y: origin{~}1~

mirror{~}point2~ =
* x: origin{~}0~ + zc
* y: origin{~}1~

win1 =
* x: origin{~}0~ - zc
* y: origin{~}1~ - zc
* z: origin{~}2~ - zc

win2 =
* x: origin{~}0~ + dim{~}0~ - zc
* y: origin{~}1~ + dim{~}1~ - zc
* z: origin{~}2~ + dim{~}2~ - zc

h3. Technical Program Outline

*viewtop* - sets the workspace so that the user is viewing the top of the object.

viewtop <-- viewtop1

{float:left|border=2px solid black}
[!2.bmp|width=420px520px!|AutoCAD Sedimentation Tank Inlet Slopes Trapezoid Program]
{float}
*

zoomwin

...

-

...

zooms

...

on

...

a

...

window

...

space

...

directly

...

around

...

where

...

the

...

inlet

...

slope

...

is

...

to

...

be

...

drawn.

...

zoomwin

...

<--

...

zoom

...

win(win1,

...

win2)

...

win1

...

=

...

  • x:

...

  • origin

...

  • 0 -

...

  • zc

...

  • y:

...

  • origin

...

  • 1 -

...

  • zc

...

  • z:

...

  • origin

...

  • 2 -

...

  • zc

...

win2

...

=

...

  • x:

...

  • origin

...

  • 0 +

...

  • dim

...

  • 0 -

...

  • zc

...

  • y:

...

  • origin

...

  • 1 +

...

  • dim

...

  • 1 -

...

  • zc

...

  • z:

...

  • origin

...

  • 2 +

...

  • dim

...

  • 2 - zc

Wiki Markup
 zc
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{float:left|border=2px solid black}
[!3.bmp|width=420px!|AutoCAD Sedimentation Tank Inlet Slopes Trapezoid Program] 
{float}

*

verticalbox

...

-

...

draws

...

a

...

box

...

using

...

verticalorigin

...

to

...

select

...

the

...

first

...

corner,

...

and

...

verticalorigin

...

dim to

...

select

...

the

...

opposite

...

corner.

...

This

...

box

...

will

...

serve

...

as

...

the

...

vertical

...

part

...

of

...

the

...

inlet

...

slopes.

...

verticalbox

...

<--

...

box(verticalorigin,

...

verticalorigindim)

verticalorigin =

  • x: origin0
  • y: origin1 - borifice - thick
  • z: origin2

verticaldim =

  • x: length/n
  • y: thick
  • z: HTrapezoid + thick*cos(bigslope)

Wiki Markup
{~}dim~)

verticalorigin = 
* x: origin{~}0~
* y: origin{~}1~ - b{~}orifice~ - thick
* z: origin{~}2~

verticaldim =
* x: length/n
* y: thick
* z: H{~}Trapezoid~ + thick*cos(bigslope)
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{float:left|border=2px solid black}
[!4.bmp|width=280px!|AutoCAD Sedimentation Tank Inlet Slopes Trapezoid Program] 
Southwest Isometric View
{float}
*

bigslopebox

...

-

...

draws

...

on

...

top

...

of

...

the

...

vertical

...

box,

...

using

...

slopeorigin

...

to

...

select

...

the

...

first

...

corner,

...

and

...

box

...

dim to

...

select

...

the

...

opposite

...

corner.

...

This

...

box

...

will

...

serve

...

as

...

the

...

slope

...

of

...

the

...

inlet

...

slopes.

...

bigslopebox

...

<--

...

box(slopeorigin,

...

box

...

dim)

slopeorigin =

  • x: origin0
  • y: origin1 - borifice - thick
  • z: origin2 + HTrapezoid + thick*cos(bigslope)

boxdim = slopeorigin + dim



Wiki Markup


box{~}dim~ = slopeorigin + dim

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[!5a.bmp|width=180px300px!|AutoCAD Sedimentation Tank Inlet Slopes Trapezoid Program][!5b5.bmp|width=20px60px!|AutoCAD Sedimentation Tank Inlet Slopes Trapezoid Program]
Before sideview
{float}

*

sideview

...

-

...

changes

...

the

...

view

...

from

...

topview

...

to

...

side

...

view

...

sideview

...

<-- viewrightside1



Wiki Markup
 viewrightside1

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[!6.bmp|width=280px!|AutoCAD Sedimentation Tank Inlet Slopes Trapezoid Program]
{float}

*

rotate

...

-

...

rotates

...

the

...

bigslopebox

...

by

...

90

...

-

...

biglope*(180/pi)

...

degrees

...

along

...

the

...

z-axis.

...

rotate

...

<--

...

rotate

...

3d(sideorigin,

...

sideoriginrotate,

...

"z",

...

90

...

-

...

bigslope*(180/pi))

...

sideorigin

...

=

...

  • x:

...

  • slopeorigin

...

  • 1 +

...

  • thick

...

  • y:

...

  • slopeorigin

...

  • 2 +

...

  • dim2
  • z:

...

  • slopeorigin0

sideoriginrotate =

  • x: slopeorigin1 + thick
  • y: slopeorigin2
  • z: slopeorigin0

"z" =

90 - bigslope*(180/pi)

...

=

orificebox -

orificebox <--

...

box(orifice

...

origin,

...

orifice

...

dim)

orificeorigin =

  • x: verticalorigin0 + verticaldim0/2 - lorifice/2
  • y: verticalorigin1
  • z: verticalorigin2

orificedim =

  • x: verticalorigin0 + verticaldim0/2 + lorifice/2
  • y: verticalorigin1 + verticaldim1
  • z: verticalorigin2 + horifice + (borifice*tan(littleslope))

...

subtractorifice

...

-

...

subtracts

...

orificebox

...

to

...

create

...

an

...

orifice,

...

using

...

the

...

verticalorigin

...

to

...

select

...

orificebox

...

as

...

the

...

object

...

to

...

be

...

subtracted.

...


subtractorifice

...

<--

...

subtractDall(verticalorigin)

...

verticalorigin

...

=

...

  • x:

...

  • origin0
  • y:

...

  • origin

...

  • 1 -

...

  • b

...

  • orifice -

...

  • thick

...

  • z:

...

  • origin2

array - creates an array to replicate the slab n times, by using the origin to select the slab as the item to put into an array, then specifies that a rectangular array with one row and "n" columns with a displacement of "dist" is to be used to place the slabs one next to the other.

array <-- arrayB(verticalorigin, nrow, ncol, dist)

verticalorigin =

  • x: origin0
  • y: origin1 - borifice - thick
  • z: origin2

nrow = l

ncol = n

dist = length/2

union - Unites all the individual components of the inlet slope to act as a single unit

union <-- unionallA

mirror - replicates the original inlet slope drawn by selecting the original inlet slope using the origin, then reflecting it over a mirror line created using mirrorpoint1 and mirrorpoint2.

mirror <-- mirrorall(mirrorpoint1, mirrorpoint2)

win1 =

  • x: origin0 - zc
  • y: origin1 - zc
  • z: origin2 - zc

win2 =

  • x: origin0 + dim0 - zc
  • y: origin1 + dim1 - zc
  • z: origin2 + dim2 - zc

bigunion -

bigunion <--unionallA