Using the code the way you have (otherwise look at triplot_demo depending on what you want, as mentioned by @GBy), you can extract or rotate each array so that you just plot the line downwards:

```
import matplotlib.pyplot as plt
import numpy as np
r = 0.25
d = 2*r
s = 0
l1 = np.array([[s,0], [s+d,0], [s+2*d,0], [s+3*d,0]])
l2 = np.array([[s-r,d], [s+r,d], [s+r+d,d], [s+r+2*d,d]])
l3 = np.array([[s,2*d], [s+d,2*d], [s+2*d,2*d], [s+3*d,2*d]])
l4 = np.array([[s-r,3*d], [s+r,3*d], [s+r+d,3*d], [s+r+2*d,3*d]])
l5 = np.array([[s,4*d], [s+d,4*d], [s+2*d,4*d], [s+3*d,4*d]])
fig = plt.figure(0)
ax = fig.add_subplot(111)
larr = [l1,l2,l3,l4,l5]
# Plot horizontally
for l in larr:
# same as your *zip(*l1), but you can select on a column-wise basis
ax.errorbar(l[:,0], l[:,1], fmt="o", ls="-", color="black")
# Plot zig-zag-horizontally
for i in range(len(larr[0])):
lxtmp = np.array([x[:,0][i] for x in larr])
lytmp = np.array([x[:,1][i] for x in larr])
ax.errorbar(lxtmp, lytmp, fmt="o", ls="-", color="black")
ax.set_ylim([-0.1,2.1])
ax.set_xlim([-0.6,1.6])
plt.show()
```

EDIT:

```
lxtmp = np.array([x[:,0][i] for x in larr])
```

So, x[:,0] means take all of the rows ":" but only the first column "0". For l1 it will return:

```
l1[:,0]
array([ 0. , 0.5, 1. , 1.5])
```

which are the x-values for l1. Doing l1[:,1] will return all of the rows from column "1", the y-values. To draw the vertical lines, you want to take all the x and y values from each i-th array, and hence you loop over all the arrays, taking out the i-th element. For example, the 3rd vertical zig-zag line, would be:

```
lxtmp = [l1[:,0][2], l2[:,0][2], l3[:,0][2], l4[:,0][2], l5[:,0][2]]
lytmp = [l1[:,1][2], l2[:,1][2], l3[:,1][2], l4[:,1][2], l5[:,1][2]]
```

To simplify and run over each element, I created 'larr' to loop over and 'build' then in a normal python fashion, e.g.,

```
[i for i in range(1,10)]
[1, 2, 3, 4, 5, 6, 7, 8, 9]
```