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Really?
Reg Number and page number of BS7671:2018 would be of much interest and assistance to others if you could quote please??
Over 400 sq mm singles get very expensive,. Once you get to 400 sq. mm SWA cables they get very expensive.
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Hi MichaelsThe shed is supplied via a dedicated circuit. It's a 32A rcbo in the consumer unit. The 2 2.5mm twin and earth's run under the floor to the utility room which is an extension and a concrete floor. From there it's in a mini trunking sat above the skirting that can't be seen due to storage, fridge, freezer etc. Then in the corner it's drilled through the wall to a wiska box outside. From there it's jointed onto a 4mm swa which goes under the flags and is buried to the shed. About a 7 metre length of cable. That then feeds the shed consumer unit. I did it in 2.5 so the cpc was slightly bigger and as a ring as to be able to put it on a 32A RCBO. A 4mm or 6 mm twin has only 2.5 cpc. I'm considering upgrading it to 6mm twin and then the swa to 6mm. The load is negligible outside tho. If it was possible to run the swa straight to the mains I would. The armored is a 3 core so has a cable earth and has been glanded off properly with a banjo so good earthing outside
The PEN is the armouring. Have you never seen a concentric cable. Yes you correct about where it splits, but you get the point. I was using the term meter as a generalisation for the meter box. You just being picky. Was that all you could find to criticise?The PEN conductor of a concentric cable is not the armour. The earthing conductor and neutral conductor are derived from the service head, not after the meter.
Armour or banding around the bedding of a cable is to provide a level of mechanical protection. The outer conductor of a concentric cable is a live conductor and offers no mechanical protection. I wasn't criticising I was correcting your obvious lack of technical knowledge.The PEN is the armouring. Have you never seen a concentric cable. Yes you correct about where it splits, but you get the point. I was using the term meter as a generalisation for the meter box. You just being picky. Was that all you could find to criticise?
To answer the question. 13A BS1363 socket outlets designed solely for use in offices or domestic. They not allowed for use in factories or workshops by the IEE/IET Regulations. Simply due to restrictions of the size of floor area this type of circuit allowed to serve. That is floor Area measured between one solid wall and another. Not between low partitions, fences, or lines marked on the floor.You cannot use 13A sockets on a ring final circuit in a factory, they must be radials using BS4343 sockets. Where is this pearl of wisdom quoted in BS7671.
It is 100 square metres (10m x 10m), NOT 100 metre square (100m x 100m). Get the terminology correct.Which Regulation cites 100m sq.
Are you saying that the outer solid strands around a concentric cable does not offer mechanical protection? If so, what is the point of the outer strands? When they could just used a 2c unarmoured cable. The whole point of concentric cable is to provide both mechanical and earth protection in one. Have you ever work installing concentric cable to supply houses?Armour or banding around the bedding of a cable is to provide a level of mechanical protection. The outer conductor of a concentric cable is a live conductor and offers no mechanical protection. I wasn't criticising I was correcting your obvious lack of technical knowledge.
No it doesn't offer mechanical protection, how can a live conductor offer mechanical protection. Contact any cable manufacturer and they will confirm this.Are you saying that the outer solid strands around a concentric cable does not offer mechanical protection? If so, what is the point of the outer strands? When they could just used a 2c unarmoured cable. The whole point of concentric cable is to provide both mechanical and earth protection in one. Have you ever work installing concentric cable to supply houses?
That Regulation makes no reference to a maximum floor are nor does it reference Appendix 15 which I have also pointed out as informative and not a Regulation.It is 100 square metres (10m x 10m), NOT 100 metre square (100m x 100m). Get the terminology correct.
As for you question, the regulation that applies is 433.1.204 and since it somewhat technical for the uninitiated. Appendix 15 of the 18th edition explains how to comply. It states that floor area for a ring-main with BS1363 socket outlets can serve is a maximum of 100 square metres (i.e. 10m x 10m). Also, again if you read the ON-SITE GUIDE for the 18th, Appendix H, page 188. It states it both in the first paragraph and the Table H2.1 for final circuits using BS1363 socket-outlets. That the permissible floor area this type of circuit can fed is "100 square metres". That is not a '100 metre square', which measures 100m x 100m = 10000 square metres.
Socket outlets for use in factories and workshops must be to BS4343 on a radial circuit. See ON-SITE GUILD, Appendix H, H3.1, page 190. As there no restrictions for the number of sockets you allowed or the floor area they can serve. So both the BS4343 sockets and floor area they can feed is unlimited. As long as you calculate the correct wire size to comply with volt-drop and earth-loop readings for the length of run to final outlet. Plus, any grouping factor depending where wires run (i.e. On tray or Ladder, in trunking or conduit, etc).
Both circuits for socket to BS1363 (13A) and to BS4343 (16A) are what is known as standard circuits. Something an Apprentice should know. Let alone a supposed electrician.
Appendix 15 says:- taking account of the floor area served. (historically a limit of 100m2 has been adopted)The regulation that applies is 433.1.204 and since it somewhat technical for the uninitiated. Appendix 15 of the 18th edition explains how to comply. It states that floor area for a ring-main with BS1363 socket outlets can serve is a maximum of 100 square metres (i.e. 10m x 10m). Also, again if you read the ON-SITE GUIDE for the 18th, Appendix H, page 188. It states both in the first paragraph and the Table H2.1 for final circuits using BS1363 socket-outlets. That the permissible floor area this type of circuit can fed is "100 square metres". That is not a '100 metre square', which measures 100m x 100m.
you have the neutral and earth wrapped around the line, neutral we are suppossed to consider a 'live' conductor so can't really regard that as armour. Shame really as I love the smaller physical size of the cable, and, ahem, my garge supply is split con. Supplies to houses are DNO territory, they have their own rulesThe whole point of concentric cable is to provide both mechanical and earth protection in one. Have you ever work installing concentric cable to supply houses?
Socket outlets for use in factories and workshops must be to BS4343 on a radial circuit. See ON-SITE GUILD, Appendix H, H3.1, page 190. As there no restrictions for the number of sockets you allowed or the floor area they can serve. So both the BS4343 sockets and floor area they can feed is unlimited. As long as you calculate the correct wire size to comply with volt-drop and earth-loop readings for the length of run to final outlet. Plus, any grouping factor depending where wires run (i.e. On tray or Ladder, in trunking or conduit, etc).
Look in the Appendix as I said. And yes, every factory you been in with socket outlets BS1363 are wrong. To comply with the H&S act, you must comply with the electrical Regs. Only a 'Chartered Electrical Engineer' can overrule the Regs. In my experience, most of the 13A socket outlets are installed by maintenance people or a man in a van who know no better. You go the a blue chip company like Pedigree Petfoods or Rolls Royce. All you will find is outlets to BS4343.just been having a read through 553, nothing in there to suggest you can't install BS1363 sockets in a workshop or factory. If you are correct in this matter, every factory or workshop I have worked in is wrong. Again the On site guide is guidance not regs.
The on site guide is a dumbed down version of the regs, and BS7671 is only guidnace itself, The OSG is written for those that can't understand the actual regs book. I worked in blue chip companies for over 20 years before retraining as an electrician 17 years ago. There's lots of production equipment in factories that use standard 3 pin 13A plugs, including the most important piece of kit of all, the kettle! What you are suggesting is that we would have to cut the 13A plug off a piece of equipment, and rewire it to a 16A commando socket, thereby removing its fuse protection in contravention of the manufacturers design and contravening its CE certification.think you and many others are misunderstanding the term "guidance", In this case it means how to comply. Not that you can ignore it.
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