化工工艺流程图阀门程序设计 提要:本文针对化工工艺流程图CAD阀门绘制程序设计,探讨CAD在化工工艺设计中的运用。文后提供的程序清单可在AutoCAD R12中文环境下运行,对化工工艺设计CAD二次开发提供经验与技巧。 CAD技术已广泛应用于各专业设计,但在化工工艺设计领域内商品化软件不足,这就需要各设计单位自行开发应用软件以适应CAD技术的发展.本文提供的阀门绘制程序是在AutoCAD二次开发的化工工艺计算机辅助设计CPCAD系统中的一个独立程序,它以AutoLisp语言编写,功能全,使用方便,具有可读性及一定的技巧。 ● 阀门绘制要求 在AutoCAD上绘制阀门,要求于已存在的工艺管道上据阀门类型自动按一定的比例显示,图纸输出时的尺寸符合专业制图要求,(原因是不可能根据阀门的实际尺寸与其它化工设备按同一比例绘图) 并自动切断管道线,同时判断管线与水平方向的夹角,可取代AutoCAD的copy。阀门型式全,层自动设置并不受原当前层的影响。 ● 程序简介 该程序针对以上要求,提供11种常用阀型,可方便地进行选择.如需其它类型,可对源程序简单地修改补充。 1.主控程序 在主控程序中,(if (and (/= *bl nil) (/= *dwgscale nil))判断变量*bl及*dwgscal是否存在.如不存在程序不再执行,因此需在ACAD.LSP中加载或在command下赋值(注:*bl=*dwgscale)。如(setq *bl 100) (setq *dwgscale 100),100为绘图比例。Progn语句段完成图层设置,下面的缺省值设计读者可自行分析,具有通用性和一定的技巧。 2.阀门程序的公用子程序 该部分是程序的核心.阀门长度的赋值是绘图比例的5倍,当以相同比例输出时其长度为5mm。法兰的绘制是可选择的。当提示阀心位置时,选择line实体,程序可就选择的line实体的起点和终点坐标计算该线与水平方向的夹角,同时求出各绘制点的极坐标。需要强调的是对Pline折线不适用,其原因是起点与终点的连线和要绘阀门不一致。(一般地,如需粗线可在出图时对绘图仪的参数进行设置)该子程序中又调用法兰设计子程序,这是AutoLisp允许的,而且是一很好的功能。 3.其它子程序相对简单,不再介绍。 ●.附源程序清单VA (defun *ERROR* (st) (menucmd "s=s") (command "osnap" "none") (command "layer" "s" cl "") (setvar "regenmode" 1) (princ st) (terpri) ) (defun qs () (setq fc (* 5.0 *bl)) (menucmd "s=s") (initget "Y N") (if (not *yffl) (setq *yffl "N")) (princ "\n有否法兰: [ Y/N ]< ") (princ *yffl) (setq fl (getkword " >")) (if (not fl) (setq fl *yffl) (setq *yffl fl)) ) (defun dfw ( ) (command "OSNAP" "NEAR") (setq e1 (entsel "\n阀心位置:")) (command "osnap" "none") (defun gy() (setq zx (cadr e1) e2 (entget (car e1)) p01 (cdr (assoc 10 e2)) p02 (cdr (assoc 11 e2)) zj (+ (* (/ 1.0 2.0) pi) (angle p01 p02)) l1 (/ fc 1.732) l2 (/ l1 1.0) p1 (polar zx (+ zj (* (/ 2.0 3.0) pi)) l2) p2 (polar zx (+ zj (* (/ 1.0 3.0) pi)) l2) p3 (polar zx (+ zj (* (/ 4.0 3.0) pi)) l2) p4 (polar zx (+ zj (* (/ 5.0 3.0) pi)) l2) p11 (polar zx (+ zj (* (/ 1.0 2.0) pi)) (* 0.867 l2)) p21 (polar zx (+ zj (* (/ 2.0 3.0) pi)) (* 0.48 l1)) p22 (polar zx (+ zj (* (/ 1.0 3.0) pi)) (* 0.48 l1)) p23 (polar zx (+ zj (* (/ 4.0 3.0) pi)) (* 0.48 l1)) p24 (polar zx (+ zj (* (/ 5.0 3.0) pi)) (* 0.48 l1)));setq (flsz) (command "break" p32 p33 ) ) (defun qf ( ) (while e1 (gy) (command "line" p21 p1 p2 p22 "" "line" p23 p3 p4 p24 "" "circle" zx (* 0.48 l1));command (dfw) );while (PRINC) ) (defun jz ( ) (while e1 (gy) (command "line" p1 p2 p3 p4 p1 "") (dfw) (PRINC) ) ) (defun zf ( ) (while e1 (gy) (setq l3 (/ l2 2) p7 (polar zx (+ zj (* (/ 1.0 1.0) pi)) l3) p8 (polar zx (+ zj (* (/ 0.0 1.0) pi)) l3));setq (command "line" p1 p2 p3 p4 p1 "" "line" p7 p8 "" );command (dfw) (PRINC));while ) (defun dx ( ) (while e1 (gy) (command "line" p1 p2 p3 p4 p1 "" "solid" zx p3 p4 "" "");command (xzjd) (command "rotate" "c" p2 p3 "" zx zj) (dfw) ) (PRINC) ) (defun xzjd() (initget "Y N") (if (not *xz) (setq *xz "N")) (princ "\n镜像旋转: [ Y/N ]< ") (princ *xz) (setq xz (getkword " >")) (if (not xz) (setq xz *xz) (setq *xz xz)) (if (= xz "N") (setq zj 0.0) (setq zj 180.0)) ) (defun xs ( ) (while e1 (gy) (command "line" p1 p2 p3 p4 p1 "" "donut" 0 (* 0.8 l1) zx "");command (dfw) );while (PRINC) ) (defun jl ( ) (while e1 (gy) (command "line" p1 p2 p3 p4 p1 "" "solid" zx p3 p4 "" "" "solid" zx p1 p2 "" "");command (dfw) );while (PRINC) ) (defun jy ( ) (while e1 (gy) (command "line" p1 p3 p4 p2 p1 "" "line" p3 p11 p4 "");command (xzjd) (command "rotate" "c" p2 p3 "" zx zj) (dfw) );while (PRINC) ) (defun gm ( ) (while e1 (gy) (setq p44 (polar zx (+ zj (* 0.0 pi)) (* 0.6 l1))) (command "line" p1 p2 p3 p4 p1 "" "arc" p24 p44 p22);command (dfw) );while (PRINC) ) (defun df ( ) (while e1 (gy) (command "line" p1 p3 p4 p2 p1 "" "circle" zx (* 0.5 l1));command (dfw) );while (PRINC) ) (defun ss ( ) (while e1 (gy) (setq p55 (polar zx (* 0.25 pi) (* 0.45 fc)) p56 (polar zx (* 1.25 pi) (* 0.45 fc)) p57 (polar zx (* 1.25 pi) (* 0.225 fc)));setq (command "pline" p57 "w" (* 0.45 fc) "" "a" "ce" zx "a" 180 "" "line" p55 p56 "" "circle" zx (* 0.45 fc) );command (dfw) );while (PRINC) ) (defun kz ( ) (while e1 (gy) (setq k1 (polar zx zj (* l2 0.7)) kzx (polar zx zj (* l2 0.35)) k2 (polar k1 (+ zj (* (/ 1.0 2.0) pi)) (/ l2 2.0)) k3 (polar k1 (+ zj (* (/ 3.0 2.0) pi)) (/ l2 2.0)) k4 (polar k1 zj (/ l2 2.0)));setq (command "line" p1 p2 p3 p4 p1 "" "line" k2 k3 "" "line" k1 zx "" "arc" k2 k4 k3);command (xzjd) (command "rotate" "c" kzx k4 "" zx zj) (dfw) );while (PRINC) ) (defun flsz() (if (= fl "Y") (progn (setq p32 (polar zx (+ zj (* (/ -1.0 2.0) pi)) (* 3.0 *bl)) p33 (polar zx (+ zj (* (/ 1.0 2.0) pi)) (* 3.0 *bl)) pf1 (polar p32 (+ zj (* 0.0 pi)) (* 0.5 l1)) pf2 (polar p32 (+ zj (* 1.0 pi)) (* 0.5 l1)) pf3 (polar p33 (+ zj (* 1.0 pi)) (* 0.5 l1)) pf4 (polar p33 (+ zj (* 0.0 pi)) (* 0.5 l1)));setq (command "break" p32 p33 "line" pf1 pf2 "" "line" pf3 pf4 "");command );progn (setq p32 (polar zx (+ zj (* (/ -1.0 2.0) pi)) l2) p33 (polar zx (+ zj (* (/ 1.0 2.0) pi)) l2));setq );if (princ) ) (defun va( ) (if (and (/= *bl nil) (/= *dwgscale nil)) (progn (setvar "cmdecho" 0) (setvar "regenmode" 0) (setq cl (getvar "clayer")) (command "blipmode" "off" "fill" "on" "layer" "m" "va" "s" "va" "lt" "continuous" "" "c" "green" "" "");command (initget "Q Z J D X L Y G W S K") (if (not *fm) (setq *fm "J")) (princ "\n球Q/闸Z/截J/单D/旋X/节L/减Y/隔G/蝶W/疏S/控K < ") (princ *fm) (setq fm (getkword " >:")) (if (not fm) (setq fm *fm) (setq *fm fm)) (cond ((= fm "Q") (qs) (dfw) (qf)) ((= fm "Z") (qs) (dfw) (zf)) ((= fm "J") (qs) (dfw) (jz)) ((= fm "D") (qs) (dfw) (dx)) ((= fm "X") (qs) (dfw) (xs)) ((= fm "L") (qs) (dfw) (jl)) ((= fm "Y") (qs) (dfw) (jy)) ((= fm "G") (qs) (dfw) (gm)) ((= fm "W") (qs) (dfw) (df)) ((= fm "S") (qs) (dfw) (ss)) ((= fm "K") (qs) (dfw) (kz)));cond (command "layer" "s" cl "") (setvar "regenmode" 1) (princ) ) ) );end (va) princ) ) ) );end (va) |