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h3. General Program Information {float:left|border=2px solid black} [!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 {float} \\ \\ h3. Input Definitions h5. 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 W{~}Sed~ - width of the sedimentation tank l{~}orifice~ - length of the opening that will allow inlet flow h{~}orifice~ - height of the opening that will allow inlet flow b{~}orifice~ - 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 - H{~}Trapezoid~ - h5. Inputs Defined within the Inlet Slope Trapezoid Function 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) slopeorigin = * x: origin{~}0~ * y: origin{~}1~ - b{~}orifice~ - thick * z: origin{~}2~ + H{~}Trapezoid~ + thick*cos(bigslope) dim = * x: length/n * y: thick * z: (W{~}Sed~/2 -b{~}orifice~)*(1/cos(bigslope)) 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=280px420px!|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 \\ \\ {float:left|border=2px solid black} [!3.bmp|width=280px420px!|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, verticalorigin{~}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) \\ \\ {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: origin{~}0~ * y: origin{~}1~ - b{~}orifice~ - thick * z: origin{~}2~ + H{~}Trapezoid~ + thick*cos(bigslope) box{~}dim~ = slopeorigin + dim \\ \\ {float:left|border=2px solid black} [!5a.bmp|width=280px180px!|AutoCAD Sedimentation Tank Inlet Slopes Trapezoid Program][!5a.bmp|width=280px!|AutoCAD Sedimentation Tank Inlet Slopes Trapezoid Program] Before sideview {float} *sideview* - changes the view from topview to side view sideview <-- viewrightside1 \\ \\ {float:left|border=2px solid black} [!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~ + dim{~}2~ * z: slopeorigin{~}0~ sideoriginrotate = * x: slopeorigin{~}1~ + thick * y: slopeorigin{~}2~ * z: slopeorigin{~}0~ "z" = 90 - bigslope*(180/pi) = \\ \\ *orificebox* - orificebox <-- box(orifice{~}origin~, orifice{~}dim~) 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)) *subtractorifice* - subtracts orificebox to create an orifice, using the verticalorigin to select orificebox as the object to be subtracted. subtractorifice <-- subtractDall(verticalorigin) verticalorigin = * x: origin{~}0~ * y: origin{~}1~ - b{~}orifice~ - thick * z: origin{~}2~ *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: origin{~}0~ * y: origin{~}1~ - b{~}orifice~ - thick * z: origin{~}2~ nrow = l ncol = n dist = length/2 *union* - Unites all the individual components of the inlet slope to act as a single unit union <-- union{~}allA~ *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 mirror{~}point1~ and mirror{~}point2~. mirror <-- mirror{~}all~(mirror{~}point1~, mirror{~}point2~) 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 *bigunion* - bigunion <--union{~}allA~ |
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