The BS recommends fire resisting cables should be used, with enhanced protection required in some circumstances. Where enhanced fire resistance is required it is usually due to phased evacuation or in a building with different alarm zones. In these cases all alarm cabling is critical and installation standards must be upheld to the highest standard.
But how important is it in a simpler building with conventional evacuation strategy? What do we achieve by enforcing the highest standards of installation? I would like to explore why and what this achieves. What is the liklihood of a poorly installed soft skin cable with inadequate support burning through or failing as a result of exposure to a fire before the alarm has been raised and evacuation complete? If the cable serves sounders as well as detectors then it appears to me to be particularly critical- and most do nowadays. In the old days I remember higher standards were applied to sounder circuits than detector circuits. Now everything is on the same loop but the loop and the isolators make this arrangement more resilient. Could a burn though affect more than the immediate vicinity of the fire?
Owen, loose laid I would take it means laid on joists or inaccessable areas, such as closed in ceilings, it would be safe to assume that the joists/inaccessable areas would support the cable at least as well as a cable clipped to the underside of the joist or closed ceilings, even following all the guidence.
Yes you could argue that in the situation you describe we have a detector protecting the area beneath a ceiling with the cables laid on top of the ceiling. If the ceiling offers fire resistance, it will protect the cable. But presumably there will also be a risk of fire and other devices in the ceiling void as well, and ifwe could take account of the fire ressitance of the ceiling the BS would state this
But Wiz, how are the cable manufacturers expected to know of every possible installation, they can only give guidence based on their controlled lab tests, all an installer can then do is prove he followed the guidence and requirements of BS5839, even then if he hasnt taken into account all the potential risks he may still be at fault and up in front of the judge.
I think the term "as far as reasonably practical" comes into use here, in old languange "common sense"
Every day I see alarm systems installed by engineers I respect that do not come anywhere near the 300mm/450mm guidance for FP200 cables. Usually I turn a blind eye because poor standards are indeed the norm and I only rock the boat if something is strikingly bad. But I am starting to wonder if the industry needs to get its act together a bit more and the Trade associations, Building Inspectors and Fire Authorities ought to look a little bit closer too.
Thanks to the responses to this thread we already have an understanding of the underlying reasons for the poor standards.
BS5839 is far too vague
Manufacturers do not give clear instructions on how their cable should be installed
BS7671 is not specific as to whether its guidance applies to fire alarm cables and does not reflect the development of soft skin cables
There is a lack of understanding in the Industry
Commisssioning engineers do not have to look at cable workmanship as part of the commissioning process.
How much does it matter though?
