NeuralNetwork wrote: » That’s largely addressed in Irish regulations with specific circuit requirements for kitchens, where heavy loads are likely to occur and you should design systems to reflect real world use, not just barely comply with minimum technical requirements.
maxamillius wrote: » Came across two rings in a friends house the other day. Upstairs & downstairs sockets on one and the kitchen on the other. Upstairs and downstairs ring has 13 sockets on it. Kitchen has 5. Both on 20amp breakers.
User3. wrote: » Not the greatest There isn't a lot of use for them now in domestic work Ring main circuits and Ring final circuits still have a lot of uses outside of that
Risteard81 wrote: » I still install ring final circuits from time to time. But it always annoys me when I come across a ring final circuit protected by a 20A device. I mean why? What is the point? Pretty much the main benefit is that it can be protected by a 32A device (or 35A fuse for older jobs), so why install one and then remove the actual benefit? It's just idiotic.
maxamillius wrote: » Seems very odd alright, always assumed they were on 32a breakers, first time I’ve seen them on 20s. House was built in the 90s
User3. wrote: » I worked on large commercial jobs where the boards were all 4sq ring finals and C20 mcbs
Risteard81 wrote: » A commercial job is a bit different because that might be snaking around trunking and perhaps has been done that way for volt drop reasons. But in a domestic dwelling, why go to the trouble of installing a ring final circuit and then derating it to a 20A protective device?
NeuralNetwork wrote: » I’d agree there’s nothing wrong with a ring, what always concerned me about them was the practice of allowing 32amps on inappropriately smaller conductors and also the reliance on local fusing to protect flexes.
From the point of view of providing a robust, safe power supply a ring on 20A or 16A MCB makes sense to me.
The U.K. systems always had a bit of an extreme approach to fusing and ludicrously complicated arrangements.
2011 wrote: » To push up standards. You could ask why should the CPC be increased to the same size as the phase conductor even when maximum permissible disconnection times are already being exceeded. You could also ask why the casings of motors have equipotential bonding cables connected to them even when it has been proved that it makes no measurable difference to the resistance between it and all simultaneously accessible conductive parts. In industrial installations we normally wire lighting circuits in 2.5 mm sq. cable regardless or length of run and have no more than 6 luminaries per circuit. I know from direct experience that many of the offices in the IFSC have socket circuits wired in ring using 4mm sq. cable in ring fed from 16A C type RCBO’s. When I questioned this (I was an apprentice at the time) I was told that it provided a more reliable circuit that remained safe in the event that the ring was broken. Even though they were wired in class 4 steel conduit and steel trunking and all cable runs were short CPC’s were 4 mm sq. This meant that even when a CPC was broken / not properly connected earth fault loop impedance tended to be sufficient. So again under various fault conditions the circuit remains safe.
2011 wrote: » All I can think of was how they permitted rewardable fuses long after we had banned this madness.
Risteard81 wrote: » I fear you've missed my point. I acknowledged that there may be legitimate reasons with a commercial installation. My question was why in a domestic environment someone would go to the trouble of installing a ring final circuit and then derating it to 20A - taking away pretty much the main advantage of it being a ring final circuit.
Risteard81 wrote: » My question was why in a domestic environment someone would go to the trouble of installing a ring final circuit and then derating it to 20A
kramer1 wrote: » My main experience with ring mains has been when some one changes the board, doesn't bother verifying anything and you end up with a ring main fed from both ends through a 20 amp breaker. I know none of this should happen as nobody but a rec should be near a fuse board and a rec should have enough sense to test while changing one bit I've seen it a few times
Emptur. wrote: » Switch off each MCB individually and check for dead Should be part of a board upgrade