# A file to generate a cycle schematic for the DX-mode AC system #Imports from __future__ import division import matplotlib.pyplot as plt import matplotlib.patches as patch import numpy as np from matplotlib.patches import FancyArrowPatch def rect (x0,y0,w,h): return (np.r_[x0-w/2,x0+w/2,x0+w/2,x0-w/2,x0-w/2],np.r_[y0-h/2,y0-h/2,y0+h/2,y0+h/2,y0-h/2]) def TwoTriangles(H,W,x,y): X=np.r_[x-W/2.0,x+W/2.0,x+W/2.0,x-W/2.0,x-W/2.0] Y=np.r_[y-H/2.0,y+H/2.0,y-H/2.0,y+H/2.0,y-H/2.0] return (X,Y) def circle(x0,y0,r,N): t=np.linspace(0,2*np.pi,N) x=x0+r*np.cos(t) y=y0+r*np.sin(t) return (x,y) fig=plt.figure() ax=fig.add_axes((0,0,1,1)) ################################################# ############# The components #################### ################################################# # Condenser x,y=rect(3,0,1,2); fig.gca().fill(x,y,'red') fig.gca().text(3,0,'Condenser\n(Indoors)',ha='center',va='center') # Compressor x,y=circle(1.5,-1.5,0.165,100); fig.gca().plot(x,y,'k') fig.gca().text(1.5,-1.8,'Compressor',ha='center',va='center') # Evaporator x,y=rect(0,0,1,2); fig.gca().fill(x,y,'lightblue') fig.gca().text(0,0,'Evaporator\n(Outdoors)',ha='center',va='center') # Expansion Device x,y=TwoTriangles(0.25,0.25,1.5,1.5); fig.gca().plot(x,y,'k') fig.gca().text(1.5,1.3,'Expansion Device',ha='center',va='center') #Liquid Line fig.gca().plot([2.15,2.85],[1.5,1.5],'k',lw=6) fig.gca().text(2.5,1.6,'Liquid Line',ha='center',va='center') #Vapor return Line fig.gca().plot([2.15,2.85],[-1.5,-1.5],'k',lw=6) fig.gca().text(2.5,-1.4,'Vapor Line',ha='center',va='center') ################################################# ##### Connect the components with lines ######### ################################################# # Condenser to Expansion Device fig.gca().plot(np.r_[3,3],np.r_[1.0,1.5],'k') fig.gca().add_patch(FancyArrowPatch((3,1.5),(1.625,1.5),arrowstyle='-|>',mutation_scale=20,fc='k',ec='k',lw=0.5)) # XV to Evaporator fig.gca().plot(np.r_[1.375,0],np.r_[1.5,1.5],'k') fig.gca().add_patch(FancyArrowPatch((0,1.5),(0,1),arrowstyle='-|>',mutation_scale=20,fc='k',ec='k',lw=0.5)) # Condenser to XV fig.gca().plot(np.r_[0,0],np.r_[-1,-1.5],'k') fig.gca().add_patch(FancyArrowPatch((0,-1.5),(1.375,-1.5),arrowstyle='-|>',mutation_scale=20,fc='k',ec='k',lw=0.5)) # Compressor to Condenser fig.gca().plot(np.r_[1.675,3],np.r_[-1.5,-1.5],'k') fig.gca().add_patch(FancyArrowPatch((3,-1.5),(3,-1),arrowstyle='-|>',mutation_scale=20,fc='k',ec='k',lw=0.5)) ################################################# ################## Cycle Inputs ################# ################################################# fig.gca().text(-0.65,0,'$T_{evap}$',ha='right',bbox=dict(boxstyle='rarrow',fc='w',ec='k')) fig.gca().text(2.35,0,'$T_{cond}$',ha='right',bbox=dict(boxstyle='rarrow',fc='w',ec='k')) ms=10 fig.gca().text(0,-1.5,'1',ha='center',va='center',bbox=dict(fc='w',boxstyle='round')) fig.gca().text(2,-1.5,'2',ha='center',va='center',bbox=dict(fc='w',boxstyle='round')) fig.gca().text(3,-1.5,'3',ha='center',va='center',bbox=dict(fc='w',boxstyle='round')) fig.gca().text(3,1.5,'4',ha='center',va='center',bbox=dict(fc='w',boxstyle='round')) fig.gca().text(2,1.5,'5',ha='center',va='center',bbox=dict(fc='w',boxstyle='round')) fig.gca().text(0,1.5,'6',ha='center',va='center',bbox=dict(fc='w',boxstyle='round')) plt.draw() plt.gca().axis('equal') plt.gca().axis('off') plt.show()