I'm not sure if I'm answering your question from the right angle but here goes.  The larger transmission towers are carrying cables at higher voltages, therefore they need greater distances to prevent the electricity "jumping" or arcing from the cables (which aren't insulated) to the pylons.  This would be very dangerous as the pylons themselves would then become live, and anyone coming into contact with the pylons would be electrocuted.  Now, imagine trying to work with a single, heavy piece of porcelain at a great height.  This might be possible on a building site with cranes and other lifting devices, but imagine trying to get a crane to work offroad up a hill somewhere where many pylons are.

To me it seems the logical answer is to break the insulator up into more easily manageable pieces.  As far as I can remember, each disc can provide insulation for 11000v, therefore a tower carrying 440000v can be identified by it having  40 discs.

Not sure about the ribbing though, I'll have to have a think about that.