Thanks to @sega_sai,@askewchan, and @Zhenya,
I made the code myself and I believ due to implementation this would be the most
efficient one. There are two function the first one makes the mixtures of "binoNumber" binomial distributions all having the same N=maximum-minimum parameter and same p=0.5 but are shifted according random centers I generated for them.

```
global binoInitiated
binoInitiated=False;
def binoMixture(minimum,maximum,sampleSize):
global centers
binoNumber=10;
if (not binoInitiated):
centers=np.random.randint(minimum,maximum+1,binoNumber)
sigma=maximum-minimum-2
sam=np.array([]);
while sam.size<sampleSize:
i=np.random.choice(binoNumber);
temp=np.random.binomial(sigma, 0.5,1)+centers[i]-sigma/2+1
sam=np.append(sam,temp)
return sam
```

This function is to draw the an approximate PDF for the distribution made beforehand.
Thanks to @EnricoGiampieri who I used his code to make this part.

```
def binoMixtureDrawer(minimum,maximum):
global binoInitiated
global centers
sam=binoMixture(minimum,maximum,50000)
# this create the kernel, given an array it will estimate the probability over that values
kde = gaussian_kde( sam )
# these are the values over wich your kernel will be evaluated
dist_space = linspace( min(sam), max(sam), 500 )
# plot the results
fig.plot( dist_space, kde(dist_space),'g')
```