BS1363 has its own safety/performance issues
1
Wiping a flat blade with a flat (in one dimension) socket contact results in moderate pressure, for the same amount of force the user inserting the plug feels from outside
In European plugs with round pins, the pressure from the socket contact is concentrated to a narrower spot, resulting in higher pressure, so the contact is wiped more forcibly in this spot to break surface dirt and oxides
The same contact spot is then elongated into a line when the plug is fully inserted. The final contact area is similar to the BS1363, except in the European ones the line is along the pin (along the same area that is wiped on its way in and out), while in BS1363 all the area that was wiped during the insertion of the plug isn't even in use and the benefit is wasted
2
The plug is polarized, which gives the appliance manufactuer (or DIYer) a sense of security that a certain conductor at their end has no voltage on it. This sense is false. It takes as little as pulling the plug halfway out and a little to the right to make the appliance live on the Neutral as much as it is on the Live
Anyone referring to this as a safety feature (outside of some industrial applications maybe, which would then use IEC 60309 plugs anyway), does this because in their thinking, they treat the Neutral with less caution than the Live. Which means their entire application is less safe regardless of the plug
Schuko and the Italian types are not polarized, and while the French plug itself cannot be inserted in reverse, there is no consistent code for the polarity of the wiring in the wall receptacle. (Besides, the plug itself is usually the same plug made to fit both the French and Schuko). This means that all 3 are essentially non polarized
Then manufacturers and DIYers using European plugs can have no expectations regarding the Neutral, cannot treat the Neutral in any way less carefully than the Live, and insulate everything properly
This have nothing to do with the switch of the appliance having 50% chance of being on the neutral. When this happens, when switched off, the appliance internal wiring and components will remain live, but they are still fully insulated and enclosed
3
If an appliance connected to the plug has a short circuit in it, there will be sparks and the breaker will trip or fuse will blow
MCBs (European type circuit breakers, used both in Europe and UK) are all energy limiting. When a short circuit with high enough current happens, they interrupt the current before it reached its Ohms-law expected peak value, and respectively the energy. This effect is most significant when the short circuit current is high, ie. house near
the transformer, socket on a short wiring run from the DB inside the house
This reduces the arc and melted metal blown from the contacts that were closed to complete the short circuit (the plug, held in hand at the moment this happens)
For exact specs see
https://www.eaton.com/content/dam/eaton/products/electrical-circuit-protection/circuit-breakers/xeffect/eaton-xeffect-industrial-switchgear-range-catalog-ca003002en-en-us.pdf plots on p. 152-153
I have not been able to find similar data for BS1362 fuse
The BS1363 plug is inserted into a receptacle on a 32A breaker, the European on a 16A breaker. At high currents, the 16A breaker will significantly reduce the "bang" compared to 32A
Back in the day when BS1363 was designed, short circuit currents in homes were small (probably in the <1kA range), and the only means of upstream protection was fuses - but in the UK they were often not sand filled - just user replaceable wire between 2 screws on a ceramic cartridge, so the BS1362 fuse performed better than the upstream protection
4
Any short circuit interruption device (breaker or fuse) has limited interruption capacity, and will blow up if this capacity is exceeded. For BS1362 fuse it is 6kA, same as circuit breakers mostly used in homes
Maybe holding the interruption device (plug with the fuse in it) in hand while it is failing (for example, if the ceramic was cracked during installation into the plug), is less safe than having it installed remotely in the DB
5
Additional connections in the plug mean additional possible points of failure (bad contact and heating), which cannot be seen by the user from outside, and cannot be felt by the user from outside (the plug won't feel loose in the socket when inserting). The plug with loose fuse may be plugged in behind some cupboard, in a hidden location where it can keep heating and melting until it causes a fire
Any other plug is safer here just because it is simple, there is lower chance that something is bad inside
Same for the switch in the sockets (Australia too). Besides, i wonder how well that switch is protected from molten copper shooting out around the button edge if it is switched on into a short circuit
Does this amount to make the plug bad/dangerous enough to avoid it ? No, it is a fairly safe plug, as are most others used around the world, many of which do or dont have some safety features in particular
Just cut the hype already
If i would be choosing one plug of the existing ones for "home" uses in e.g. a new country (without compatibility considerations to existing everything), it would be Schuko (best) or the Italian (more compact, allowing to fit 2x more sockets in the same space)
In Italy they actually do use both for those very reasons
There are other European plugs with similar quality - the French etc, but they dont have the feature of being possible to insert both ways (for convenience and for reducing strain on the cable in some cases) which is a nice to have
Swiss 3 phase and 1 phase combined sockets are also nice to have. With minor changes the swiss combined socket can be made to accept also the italian plugs, and the Italian and schuko sockets can be made to accept the 1ph Swiss plugs
