This relates to one of those old 60A Wylex Fuse boxes that has been upgraded with MCBs - I know it would be a very good idea to upgrade, but the question is, how does the "Max 60A" rating moulded on the box apply? The main fuse is 60A and the load after diversity calcs is 89A.
I am aware that this is not an unusual load for a typical house with a 60A main fuse (which can safely maintain higher loads for a relatively long period as per the time/current graph), but less clear how it applies to the fuse box & whether a 60A Fuse box was typically intended to be paired with loads suitable for a 60A main fuse. Is this limit in fact a further limiting factor on the overall load, due to things like temperature limits on the components in the fuse box, or maybe how well the main switch can cope with arcing (if say somebody tried to throw it at full load).
i.e. Diversity figures should be strictly applied in this scenario (in spite of that making the box unsuitable for most typical homes)?
I am aware that this is not an unusual load for a typical house with a 60A main fuse (which can safely maintain higher loads for a relatively long period as per the time/current graph), but less clear how it applies to the fuse box & whether a 60A Fuse box was typically intended to be paired with loads suitable for a 60A main fuse. Is this limit in fact a further limiting factor on the overall load, due to things like temperature limits on the components in the fuse box, or maybe how well the main switch can cope with arcing (if say somebody tried to throw it at full load).
i.e. Diversity figures should be strictly applied in this scenario (in spite of that making the box unsuitable for most typical homes)?
Last edited:
