有趣的MATLAB动画演示程序汇总.doc

1、MATLAB 动画演示程序汇总 1.弹性蹦球演示程序 figure(1);%定义函数 axis([-5.1,5,-0.05,1.05]);%绘制二维图形 hold on;%保持当前图形及轴系所有的特性 axis('off');%覆盖坐标刻度，并填充背景 %通过填充绘出台阶及两边的挡板 fill([4.12,4.22,4.22,4.12],[-0.05,-0.05,1.05,1.05],'y'); fill([-5,-3.2,-3.2,-5],[-0.05,-0.05,0,0],'g'); fill([-3.2,-2.8,-2.8,-3.2],[-0.05,-0.05,0.2,

2、0.2],'g'); fill([-3.2,-1.4,-1.4,-3.2],[0.2,0.2,0.25,0.25],'g'); fill([-1.4,-1,-1,-1.4],[0.2,0.2,0.45,0.45],'g'); fill([-1.4,0.4,0.4,-1.4],[0.45,0.45,0.5,0.5],'g'); fill([0.4,0.8,0.8,0.4],[0.45,0.45,0.7,0.7],'g'); fill([0.4,2.0,2.0,0.4],[0.7,0.7,0.75,0.75],'g'); fill([2.0,2.3,2.3,2.0],[-0.05,-0

3、05,0.75,0.75],'g'); fill([2.3,4.12,4.12,2.3],[-0.05,-0.05,0,0],'g'); %x2=line([-5,5],[0.25,0.25],'color','g','linestyle','-', 'markersize',50)%设置台阶边框线，颜色，擦试方式 %line([-5,5],[0.5,0.5],'color','b','linestyle','-', 'markersize',50)%设置球与地面接触面的颜色，擦试方式 %line([-5,5],[0.75,0.75],'color','b','linestyle',

4、'-', 'markersize',50)%设置球与地面接触面的颜色，擦试方式 head=line(-5,1,'color','r','linestyle','.','erasemode','xor', 'markersize',60);%设置小球颜色，大小，线条和擦试方式 %body=line(-5,1,'color','b','linestyle','-','erasemode','none'); %描绘轨迹线 %设置初始条件 while 1 t=4; dt=0.001; w=0; dw=0.001; w=0;%设置球弹起的初始位置 %设置球弹起的高度 while t

5、<=4.12 t=dt+t; if w<=1 w=dw+w; else w=-1; end y=(-w*w)+1; set(head,'xdata',t,'ydata',y);%设置球的运动 %set(body,'xdata',t,'ydata',y);%描绘轨迹线 drawnow; end %结束程序 w=0;%设置球弹起的初始位置 %设置球弹起的高度 while t>=2.11 t=t-dt; if w<=1 w=dw+w; else w=-1; end y=(-w*w)+1; set(head,'xdata',t,'ydata',y);%设置球

6、的运动 %set(body,'xdata',t,'ydata',y);%描绘轨迹线 drawnow; end %结束程序 w=0;%设置球弹起的初始位置 %设置球弹起的高度 while t>=1.11 t=t-dt; if w<=1 w=dw+w; else w=-1; end y=(-w*w)/4+1; set(head,'xdata',t,'ydata',y);%设置球的运动 %set(body,'xdata',t,'ydata',y);%描绘轨迹线 drawnow; end %结束程序 w=-0.71;%设置球弹起的初始位置 %设置球弹起的高度 w

7、hile t>=-0.62 t=t-dt; if w<=1 w=dw+w; else w=-1; end y=(-w*w)/2+1; set(head,'xdata',t,'ydata',y);%设置球的运动 %set(body,'xdata',t,'ydata',y);%描绘轨迹线 drawnow; end %结束程序 w=-0.71;%设置球弹起的初始位置 %设置球弹起的高度 while t>=-2.31 t=t-dt; if w<=1 w=dw+w; else w=-1; end y=(-w*w)/2+0.75; set(head,'xdata

8、',t,'ydata',y);%设置球的运动 %set(body,'xdata',t,'ydata',y);%描绘轨迹线 drawnow; end %结束程序 w=-0.71;%设置球弹起的初始位置 %设置球弹起的高度 while t>=-4 t=t-dt; if w<=1 w=dw+w; else w=-1; end y=(-w*w)/2+0.5; set(head,'xdata',t,'ydata',y);%设置球的运动 %set(body,'xdata',t,'ydata',y);%描绘轨迹线 drawnow; end %结束程序 for i=0:0.

9、01:200%设置延时 y=i+2; if(y>199) end end end 2.嫦娥奔月演示程序 figure('name','嫦娥一号与月亮、地球关系');%设置标题名字 s1=[0:.01:2*pi]; hold on;axis equal;%建立坐标系 axis off % 除掉Axes r1=10;%月亮到地球的平均距离 r2=3;%嫦娥一号到月亮的平均距离 w1=1;%设置月亮公转角速度 w2=12%设置嫦娥一号绕月亮公转角速度 t=0;%初始时刻为０ pausetime=.002;%设置暂停时间 sita1=0;sita2=0;%设置开始它们

10、都在水平线上 set(gcf,'doublebuffer','on') %消除抖动 plot(-20,18,'color','r','marker','.','markersize',40); text(-17,18,'地球');%对地球进行标识 p1=plot(-20,16,'color','b','marker','.','markersize',20); text(-17,16,'月亮');%对月亮进行标识 p1=plot(-20,14,'color','w','marker','.','markersize',13); text(-17,14,'嫦娥一号');%对嫦娥一号

11、进行标识 plot(0,0,'color','r','marker','.','markersize',60);%画地球 plot(r1*cos(s1),r1*sin(s1));%画月亮公转轨道 set(gca,'xlim',[-20 20],'ylim',[-20 20]); p1=plot(r1*cos(sita1),r1*sin(sita1),'color','b','marker','.','markersize',30);%画月亮初始位置 l1=plot(r1*cos(sita1)+r2*cos(s1),r1*sin(sita1)+r2*sin(s1));%画嫦娥一号绕月亮

12、公转轨道 p2x=r1*cos(sita1)+r2*cos(sita2);p2y=r1*sin(sita1)+r2*sin(sita2); p2=plot(p2x,p2y,'w','marker','.','markersize',20);%画嫦娥一号的初始位置 orbit=line('xdata',p2x,'ydata',p2y,'color','r');%画嫦娥一号的运动轨迹 while 1 set(p1,'xdata',r1*cos(sita1),'ydata',r1*sin(sita1));%设置月亮的运动过程 set(l1,'xdata',r1*cos(sita1)+r2

13、cos(s1),'ydata',r1*sin(sita1)+r2*sin(s1));%设置嫦娥一号绕月亮的公转轨道的运动过程 ptempx=r1*cos(sita1)+r2*cos(sita2);ptempy=r1*sin(sita1)+r2*sin(sita2); set(p2,'xdata',ptempx,'ydata',ptempy);%设置嫦娥一号的运动过程 p2x=[p2x ptempx];p2y=[p2y ptempy]; set(orbit,'xdata',p2x,'ydata',p2y);%设置嫦娥一号运动轨迹的显示过程 sita1=sita1+w1*pauseti

14、me;%月亮相对地球转过的角度 sita2=sita2+w2*pausetime;%嫦娥一号相对月亮转过的角度 pause(pausetime); %暂停一会 drawnow end 3.曲柄连杆机构充气球动画演示程序 hf=figure('name','打气筒吹气球'); set(hf,'color','g'); axis([-10,10,-4,4]); hold on axis off; %除掉坐标 xa0=-2.5;%活塞左顶点坐标 xa1=-1.8;%活塞右顶点坐标 xb0=-2;%连杆左顶点坐标 xb1=5;%连杆右顶点坐标 x3=5.6;%

15、转轮坐标 y3=0;%转轮坐标 x4=xb1;%设置连杆头的初始位置横坐标 y4=0;%设置连杆头的初始位置纵坐标 x5=xa1; y5=0; x6=x3;%设置连轴初始横坐标 y6=0;%设置连轴初始纵坐标 a=0.7; b=0.7 c=0.7 a1=line([xa0;xa1],[0;0],'color','m','linestyle','-','linewidth',20); %设置活塞 a8=line([-2.7;2.3],[0.3;0.3],'color','b','linestyle','-','linewidth',5);%设置打气筒 a9=line([

16、2.6;2.3],[-0.3;-0.3],'color','b','linestyle','-','linewidth',5);%设置打气筒 a10=line([-2.6;-2.6],[-0.1;-0.37],'color','b','linestyle','-','linewidth',5);%设置打气筒 a11=line([2.0;2.0],[0.1;0.37],'color','b','linewidth',5);%设置打气筒 a12=line([2.0;2.0],[-0.1;-0.37],'color','b','linewidth',5);%设置打气筒 a13=line([

17、2.6;-2.6],[0.1;0.37],'color','b','linestyle','-','linewidth',5);%设置打气筒 a14=line([-2.7;-2.7],[0.1;-0.1],'color','b','linestyle','-','linewidth',9);%设置气筒嘴 a16=line([-3.2;-3.2],[0.1;-0.1],'color','r','linestyle','-','linewidth',25);%设置气筒嘴 a2=line([xb0;xb1],[0;0],'color','m','linewidth',5);%设置连杆 a5

18、line(x5,y5,'color','black','linestyle','.','markersize',25);%设置连杆活塞连接头 a4=line(x4,y4,'color','black','linestyle','.','markersize',25);%设置连杆连接头 a6=line([xb1;x3],[0;0],'color','b','linestyle','-','linewidth',7);%设置连杆连接轴 a7=line(x3,0,'color','m','linestyle','.','markersize',50);%设置运动中心 a3=line(x3,

19、y3,'color' ,[0.5 0.6 0.3],'linestyle','.','markersize',85);%设置手轮 len1=6.8;%连杆长 len2=0.7;%活塞长 r=1.3;%运动半径 dd=0.01; d=-4; plot(d,0,'color','r','marker','.','markersize',10); pausetime=.0001 s=0; ds=1; t=0; dt=0.015*pi; while t<=15.68 t=t+dt; drawnow; lena1=sqrt((len1)^2-(r*sin(2*t))^2)

20、连杆在运动过程中横轴上的有效长度 rr1=r*cos(t);%半径在运动过程中横轴上的有效长度 xaa1=x3-sqrt(len1^2-(sin(2*t)*r)^2)-(r*cos(2*t));%活塞在运动过程中的右顶点坐标位置 xaa0=xaa1-2;%%活塞在运动过程中的左顶点坐标位置 x55=x3-cos(2*t)*r;%连杆在运动过程中横坐标位置 y55=y3-sin(2*t)*r*0.32;%连杆在运动过程中纵坐标位置 set(a4,'xdata',x55,'ydata',y55);%设置连杆顶点运动 set(a1,'xdata',[xaa1-0.2;xaa1],'

21、ydata',[0;0]);%设置活塞运动 set(a2,'xdata',[xaa1;x55],'ydata',[0;y55]); set(a5,'xdata',xaa1);%设置活塞与连杆连接头的运动 set(a6,'xdata',[x55;x3],'ydata',[y55;0]); if (sign(y55-y3)>0) s=s+ds; d=d-dd; if s>200 s=0; d=0; end set(gcf,'doublebuffer','on');%消除震动 plot(d,0,'color','r','marker','.','markersize',s)

22、画气球 set(gcf,'doublebuffer','on') %消除抖动 pause(pausetime); %暂停一会 drawnow; end end x=[-8.0 -7.0 -6.0 -5.5 -4.5 -3.5 -3.7 -3 -4 -5.5 -6.5 -7.5 -9.1 -7.3 ]; y=[-1.8 -1.2 -2.8 -1.5 -2.8 -0.5 -0.7 0.7 0.2 1.5 0.8 1.2 1.9 0.5]; fill(x,y,'r'); text(-6,0,'pa','fontsize',22); 4.打桩机动画演示程序 clear;

23、清除工作区 clc; %清除命令区 figure('name','武工院打桩机); %设置标题 axis ([0 ,10,0,10]); %建立坐标系 hold on; axis off; %除掉坐标 text(3,9.8,'武工院打桩机','fontsize',20,'color','r'); %画打桩机支架 c1=line([1;5.5],[ 0.15;0.15],'color','k','linewidth',8); c2=line([1.7;5.2],[ 1.5;0.15],'color','k','linewidth',4); c3=line([1.8;5.2]

24、[ 0.1;8],'color','k','linewidth',4); c4=line([1.7;5.2],[ 1.5;8],'color','k','linewidth',2); c5=line([1.2;1.8],[ 0.5;0.5],'color','k','linewidth',13); fill([4.9,5.3,5.3,4.9],[8.0,8.0,0.3,0.3],[1,0.1,0.5]); fill([4.4,4.6,5.6,5.8,5.6,4.6],[8.4,8.3,8.3,8.4,8.0,8.0],[1,0.1,0.5]) %画打桩机运动部分和水泥桩 b1=l

25、ine([8;8],[1;6],'color','b','linewidth',6); b2=line([5.5,5.5],[7.9,8],'color','k','linewidth',1); b3=line([5.3,5.55],[7.9,7.9],'color','k','linewidth',3); b4=line([5.5,5.5],[7.9,6.3],'color','k','linewidth',3); b5=line([5.5,5.5],[7,6.6],'color','k','linewidth',10); b6=line([5.5,5.5],[6.6,6.3],'

26、color','k','linewidth',12); pausetime=1.6; %设置暂停时间 pause(pausetime); %吊装水泥桩 s=0; ds=0.01; pausetime1=.002; while s<2.5 %水泥桩向左移动 s=s+ds; set(b1,'xdata',[8-s;8-s],'ydata',[1;6]); pause(pausetime1); end pausetime2=1; pause(pausetime2); s=0; ds=0.01; while s<1 %水泥桩向下移动 s=s+ds; set(b1

27、'xdata',[5.5;5.5],'ydata',[1-s;6-s]); pause(pausetime1); end pause(pausetime2); s=0; ds=0.01; while s<1.3 %打桩机运动部分下移与水泥桩顶端相接触 s=s+ds; set(b2,'xdata',[5.5;5.5],'ydata',[7.9-s,8]); set(b3,'xdata',[5.3;5.55],'ydata',[7.9-s,7.9-s]); set(b4,'xdata',[5.5;5.5],'ydata',[7.9-s,6.3-s]); set(b5,'x

28、data',[5.5;5.5],'ydata',[7-s,6.6-s]); set(b6,'xdata',[5.5;5.5],'ydata',[6.6-s,6.3-s]); pause(pausetime1); end %打桩机开始打桩 pausetime3=.4; pause(pausetime2); s=0; ds=0.06; %设定打桩进度 while s<4 a=0; da=0.01; pausetime4=.0002; while a<.4 %两个子循环设置打桩机铁锺上下反复运动 a=a+da; set(b5,'xdata',[5.5;5.5],'

29、ydata',[5.7-s+a,5.3-s+a]); pause(pausetime4); end a=0; while a<.4 a=a+da; set(b5,'xdata',[5.5;5.5],'ydata',[6.1-s-a,5.7-s-a]); pause(pausetime4); end s=s+ds; %打桩机运动部分与水泥桩同时向下移动 set(b1,'xdata',[5.5;5.5],'ydata',[0;5-s]); set(b2,'xdata',[5.5;5.5],'ydata',[6.6-s,8]); set(b3,'xdata',[5.3;5

30、55],'ydata',[6.6-s,6.6-s]); set(b4,'xdata',[5.5;5.5],'ydata',[6.6-s,5-s]); set(b5,'xdata',[5.5;5.5],'ydata',[5.7-s,5.3-s]); set(b6,'xdata',[5.5;5.5],'ydata',[5.3-s,5-s]); pause(pausetime3); end 5.电路演示程序 figure('name','基本电路的模拟'); axis([-3,12,0,10]);%建立坐标系 hold on %保持当前图形的所有特性 axis('off');

31、关闭所有轴标注和控制 %下面是画电池的过程 fill([-1.5,-1.5,1.5,1.5],[1,5,5,1],[0.5,1,1]);%确定坐标轴范围并填充 fill([-0.5,-0.5,0.5,0.5],[5,5.5,5.5,5],[0,0,0]); %确定坐标轴范围并填充 text(-0.5,1.5,'负极');%在坐标上标注说明文字 text(-0.5,3,'电池'); %在坐标上标注说明文字 text(-0.5,4.5,'正极'); %在坐标上标注说明文字 %下面是画导电线路的过程 plot([0;0],[5.5;6.7],'color','r','linesty

32、le','-','linewidth',4);%绘制二维图形线竖实心红色 plot([0;4],[6.7;6.7],'color','r','linestyle','-','linewidth',4); %绘制二维图形线 实心红色为导线 a=line([4;5],[6.7;7.7],'color','b','linestyle','-','linewidth',4,'erasemode','xor');%画开关蓝色 plot([5.2;9.2],[6.7;6.7],'color','r','linestyle','-','linewidth',4);%绘制图导线为红色 plot([9.

33、2;9.2],[6.7;3.7],'color','r','linestyle','-','linewidth',4);% 绘制图导线竖线为红线 plot([9.2;9.7],[3.7;3.7],'color','r','linestyle','-','linewidth',4); % 绘制图导线横线为红色 plot([0;0],[1;0],'color','r','linestyle','-','linewidth',4);%如上画红色竖线 plot([0;10],[0;0],'color','r','linestyle','-','linewidth',4);%如上画横线 plot

34、[10;10],[0;3],'color','r','linestyle','-','linewidth',4);%画竖线 %下面是画灯泡的过程 fill([9.8,10.2,9.7,10.3],[3,3,3.3,3.3],[0 0 0]);%确定填充范围 plot([9.7,9.7],[3.3,4.3],'color','b','linestyle','-','linewidth',0.5);%绘制灯泡外形线为蓝色 plot([10.3,10.3],[3.3,4.45],'color','b','linestyle','-','linewidth',0.5); %绘制灯泡外形线为蓝

35、色 %以下为绘圆 x=9.7:pi/50:10.3;%绘圆 plot(x,4.3+0.1*sin(40*pi*(x-9.7)),'color','b','linestyle','-','linewidth',0.5); %绘圆 t=0:pi/60:2*pi; %绘圆 plot(10+0.7*cos(t),4.3+0.6*sin(t),'color','b'); %绘圆 %下面是箭头及注释的显示 text(4.5,10,'电流运动方向'); %在坐标上标注说明文字 line([4.5;6.6],[9.4;9.4],'color','r','linestyle','-','line

36、width',4,'erasemode','xor');%绘制箭头横线 line(6.7,9.4,'color','b','linestyle','>','erasemode','xor','markersize',10);% %绘制箭头三角形 pause(1); %下面是开关闭合的过程 t=0; y=7.7; while y>6.7 %电路总循环控制开关动作条件 x=4+sqrt(2)*cos(pi/4*(1-t)); y=6.7+sqrt(2)*sin(pi/4*(1-t)); set(a,'xdata',[4;x],'ydata',[6.7;y]); drawnow;

37、 t=t+0.1; end %下面是开关闭合后模拟大致电流流向的过程 pause(1); light=line(10,4.3,'color','y','marker','.','markersize',40,'erasemode','xor');%画灯丝发出的光：黄色 %画电流的各部分 h=line([1;1],[5.2;5.6],'color','r','linestyle','-','linewidth',4,'erasemode','xor'); g=line(1,5.7,'color','b','linestyle','^','erasemode','xor','mar

38、kersize',10); %给循环初值 t=0; m2=5.7; n=5.7; while n<6.3;%确定电流竖向循环范围 m=1; n=0.05*t+5.7; set(h,'xdata',[m;m],'ydata',[n-0.5;n-0.1]); set(g,'xdata',m,'ydata',n); t=t+0.01; drawnow; end t=0; while t<2;%在转角处的停顿时间 m=1.2-0.2*cos((pi/4)*t); n=6.3+0.2*sin((pi/4)*t); set(h,'xdata',[m-0.5;m-0.1],

39、'ydata',[n;n]); set(g,'xdata',m,'ydata',n); t=t+0.05; drawnow; end t=0; while t<0.5 %在转角后的停顿时间 t=t+0.5; g=line(1.2,6.5,'color','b','linestyle','^','markersize',10,'erasemode','xor');%绘制第二个箭头 g=line(1.2,6.5,'color','b','linestyle','>','markersize',10,'erasemode','xor'); %绘制第二个箭头 set(g,'xdat

40、a',1.2,'ydata',6.5); drawnow; end pause(0.5); t=0; while m<8 % 确定第二个箭头的循环范围 m=1.1+0.05*t; n=6.5; set(g,'xdata',m+0.1,'ydata',6.5); set(h,'xdata',[m-0.4;m],'ydata',[6.5;6.5]); t=t+0.05; drawnow; end t=0; while t<2 %%在转角后的停顿时间 m=8.1+0.2*cos(pi/2-pi/4*t); n=6.3+0.2*sin(pi/2-pi/4*t); se

41、t(g,'xdata',m,'ydata',n); set(h,'xdata',[m;m],'ydata',[n+0.1;n+0.5]); t=t+0.05; drawnow; end t=0; while t<0.5 %在转角后的停顿时间 t=t+0.5; %绘制第三个箭头 g=line(8.3,6.3,'color','b','linestyle','>','markersize',10,'erasemode','xor'); g=line(8.3,6.3,'color','b','linestyle','v','markersize',10,'erasemode','

42、xor'); set(g,'xdata',8.3,'ydata',6.3); drawnow; end pause(0.5); t=0; while n>1 %确定箭头的运动范围 m=8.3; n=6.3-0.05*t; set(g,'xdata',m,'ydata',n); set(h,'xdata',[m;m],'ydata',[n+0.1;n+0.5]); t=t+0.04; drawnow; end t=0; while t<2%箭头的起始时间 m=8.1+0.2*cos(pi/4*t); n=1-0.2*sin(pi/4*t); set(g,'

43、xdata',m,'ydata',n); set(h,'xdata',[m+0.1;m+0.5],'ydata',[n;n]); t=t+0.05; drawnow; end t=0; while t<0.5 t=t+0.5; %绘制第四个箭头 g=line(8.1,0.8,'color','b','linestyle','v','markersize',10,'erasemode','xor'); g=line(8.1,0.8,'color','b','linestyle','<','markersize',10,'erasemode','xor'); set(g,'x

44、data',8.1,'ydata',0.8); drawnow; end pause(0.5); t=0; while m>1.2 %箭头的运动范围 m=8.1-0.05*t; n=0.8; set(g,'xdata',m,'ydata',n); set(h,'xdata',[m+0.1;m+0.5],'ydata',[n;n]); t=t+0.04; drawnow; end t=0; while t<2 %停顿时间 m=1.2-0.2*sin(pi/4*t); n=1+0.2*cos(pi/4*t); set(g,'xdata',m,'ydata',n);

45、 set(h,'xdata',[m;m+0.5],'ydata',[n-0.1;n-0.5]); t=t+0.05; drawnow; end t=0; while t<0.5 %画第五个箭头 t=t+0.5; g=line(1,1,'color','b','linestyle','<','markersize',10,'erasemode','xor'); g=line(1,1,'color','b','linestyle','^','markersize',10,'erasemode','xor'); set(g,'xdata',1,'ydata',1); drawn

46、ow; end t=0; while n<6.3 %循环范围 m=1; n=1+0.05*t; set(g,'xdata',m,'ydata',n); set(h,'xdata',[m;m],'ydata',[n-0.5;n-0.1]); t=t+0.04; drawnow; end %下面是开关断开后的情况 t=0; y=6.7; while y<7.7 %开关的断开 x=4+sqrt(2)*cos(pi/4*t); y=6.7+sqrt(2)*sin(pi/4*t); set(a,'xdata',[4;x],'ydata',[6.7;y]); drawn

47、ow; t=t+0.1; end pause(0.5);%开关延时作用 nolight=line(10,4.3,'color','y','marker','.','markersize',40,'erasemode','xor'); end 6.电梯动画演示程序 figure('name','自控电梯'); axis([-2.0,15.0,-2.0,15.0]) hold on fill([-2,15,15,-2],[-2,-2,15,15],[0.5,0.2,0.3]); x1=[8 8 10 10]; y1=[6 0 0 6]; x2=[10 10 12 12];

48、 text(-1,8,'上升','fontsize',10,'color','c'); text(4,8,'下降','fontsize',10,'color','c'); text(6,12.5,'控制电机','fontsize',10,'color','c'); text(12.5,3,'电梯','fontsize',10,'color','c'); text(5,4.5,'关闭','fontsize',10,'color','c'); text(5,1.5,'打开','fontsize',10,'color','c'); l1=line([2;5.5],[11;11],'c

49、olor','c','linestyle','-','linewidth',2); l2=line([2;2],[9;11],'color','c','linestyle','-','linewidth',2); l3=line([1;1],[7;9],'color','c','linestyle','-','linewidth',2); l4=line([3;3],[7;9],'color','c','linestyle','-','linewidth',2); l5=line([1;3],[9;9],'color','c','linestyle','-','linewidth',2

50、);%绘制导线 k1=line([2;1],[6;7],'color','r','linestyle','-','linewidth',2);%单刀双掷开关 k2=line([4;5],[3;4],'color','b','linestyle','-','linewidth',2);%单刀双掷开关 g1=line([7.7;8],[3;3],'color','b','linestyle','-','linewidth',2); g2=line([7.7;7.7],[3;4],'color','b','linestyle','-','linewidth',2); g3=line([7.