Anything made for the U.K. market is the same as elsewhere in Europe, other than the plug. Brexit could in theory change that, but the U.K. remains part of CENELEC and the IEC so that’s very unlikely.
The polarity of U.K./Irish outlets matters a lot because the fuse in the plug should be on the live pin, but the appliances are identical spec to anywhere else in Europe and are polarity agnostic in reality.
Once the polarity of the socket outlet is correct, the 13 amp (or whatever lower rating is selected) fuse will be on the correct side of the circuit.
The primary purpose of the fuse is the protect the appliance cord, as the U.K. uses 32 amp final ring circuits to feed outlets. If they’re on a 15amp circuit, there’s little risk, but you could potentially exceed their 13amp maximum load. That being said, they very conservative designs that are nearly as chunky as a US dryer plug!
However, you can see why using a U.K. type plug with two live/hot terminals would be rather risky, as the fusing might not work as intended.
The lower rates fuses (most commonly 3 amp) are just there for extra safety and allowed very fine lamp cords and so on. Since the 1970s such cords aren’t sold. Lamps would have exactly the same cords as used with continental plugs.
Rings are actually not used very much here in Ireland, to the point that the current regulations here require multiple 20amp radials in kitchen and utility room type areas where high loads likely. The logic of that is that clustering appliances near one side of a ring is potentially problematic.
Generally in the rest of the house we usually 16 or 20 amp radial serving outlets in each room and 6 or 10amp radials for lighting. Everything has to be on RCDs (often a combined breaker and GFCI module called an RCBO) and recent regs now also require arc fault detection in sleeping areas, or areas prone to fire risks.
Schuko type outlets on the continent usually sit on 16 or 20 amp radials, much like US outlets.
*** 120V appliances in a 230V country ***
That’s not as easy as the other way around as there’s no handy source or 120V in the EU, U.K., Australia or NZ etc. Buildings are provided with 230V on the live (hot) and a neutral that’s typically at 0V and bonded to ground.
In the North American system buildings are fed with two lives / hots at 120V and a neural at 0V
The two live wires are tapped at the transformer such that if you connect between them you get a potential difference (Voltage) of 240V. So it’s relatively simple to obtain 230V (240V) on their systems.
In Britain and Ireland we use 110V 50Hz from a portable centre tapped transformer for power tools used on site. This is different to US voltage. It’s roughly 55V to ground from each side of the circuit, with no neural. The logic of this is personal protection of people working with power tools in rough or wet areas. It both reduces the voltage and connects via an isolating transformer, rather than directly to the mains. So you are extremely unlikely to get a shock.
Modern RCDs (GFCIs) are used elsewhere, but the regs in both countries have remained fairly conservative about power tools.
That’s a portable “site transformer” used for connecting commercial / shop power tools:[this post was last edited: 7/25/2021-19:56]
