Neighbours, eh, who'd have 'em?
I was asked to investigate why a neighbour's garden "installation" was faulty and being neighbourly agreed to take a look. It was clear that the neighbour expected (required) that only remedial action to be taken... I've documented the initial state and the remedial work carried out.
My question is specifically around testing and is at the end of the post.
Existing installation
2 spurs had been taken off the downstairs ring final circuit through the outside wall of the property. At the origin of each spur a PowerBreaker RCD Fused Spur (Passive) - 30mA (PowerBreaker RCD Fused Spur - http://www.greenbrook.co.uk/fused-spurs-powerbreaker-rcd-fused-spur-passive-30ma-1468) had been fitted. These were used as "switches". Each spur had been run in 2.5mm T&E "protected" by flexible PVC conduit buried under a patio (depth unknown) and then continuing under a raised bed (again, depth unknown).
Spur "A"
Fed a single single weatherproof socket before continuing to a weatherproof junction box where the 2.5mm T&E was connected to 4mm 3 core SWA via a terminal strip. The SWA had then been buried before exiting the ground a metre before a decking area. The SWA then fed a series of post lights (IP23 rated) which had been installed on the decking.
Condition of Spur "A"
- 2.5mm T&E -> 4mm SWA
- Weatherproof socket showed clear signs of water ingress
- Weatherproof junction box cover was missing exposing terminal strip
- SWA appeared to be glanded correctly at the origin (junction box) but glanding at decking unknown (junction box(es) inaccessible beneath decking)
- Post lights showed clear signs of water ingress
Spur "B"
Fed a single single weatherproof socket before continuing to a first weatherproof junction box where the 2.5mm T&E was connected to 4mm 3 core SWA via a terminal strip. The SWA had then been buried before exiting the ground a metre before a decking area. The SWA then fed a second single weatherproof socket attached to the deck.
Condition of Spur "B"
- 2.5mm T&E -> 4mm SWA.
- First weatherproof socket showed clear signs of water ingress.
- Weatherproof junction box cover was missing exposing terminal strip.
- SWA not glanded at second weatherproof socket.
Initial tests
- continuity - r1, r2, rn satisfactory on both spurs.
- insulation resistance - spur "A" < 20 MOhm, spur "B" > 500 MOhm (just the spur "runs").
Remedial action
Spur "A"
- Replaced faulty PowerBreaker RCD Fused Spur.
- Weatherproof socket replaced, Wiska box and Qinetic wireless switch fitted. Wago connections.
- Wiska box and Qinetic wireless switch fitted. SWA glanded. Wago connections.
- Post lights dismantled and terminal strips replaced with Wiska Shellboxes and Wagos connections.
Spur "B"
- Replaced faulty PowerBreaker RCD Fused Spur.
- First weatherproof socket replaced, Wiska box and Qinetic wireless switch fitted. Wago connections.
- Wiska box and Qinetic wireless switch fitted. SWA glanded. Wago connections.
- Second weatherproof socket replaced, Wiska box and Qinetic wireless switch fitted. Wago connections.
Finally, my question! Clearly, the circuit that has been altered is the downstairs ring final circuit. In order to conduct an insulation resistance test I will need to bypass the Powerbreaker units. The other issue is the age of the neighbours... They've already told me that they're not sure what loads are connected and where! An MEIWC requires test results for L-E, L-N, and N-E.
If the test is made with the Line and Neutral conductors connected together and earth, is it acceptable to use that value for all 3?
Thanks!
I was asked to investigate why a neighbour's garden "installation" was faulty and being neighbourly agreed to take a look. It was clear that the neighbour expected (required) that only remedial action to be taken... I've documented the initial state and the remedial work carried out.
My question is specifically around testing and is at the end of the post.
Existing installation
2 spurs had been taken off the downstairs ring final circuit through the outside wall of the property. At the origin of each spur a PowerBreaker RCD Fused Spur (Passive) - 30mA (PowerBreaker RCD Fused Spur - http://www.greenbrook.co.uk/fused-spurs-powerbreaker-rcd-fused-spur-passive-30ma-1468) had been fitted. These were used as "switches". Each spur had been run in 2.5mm T&E "protected" by flexible PVC conduit buried under a patio (depth unknown) and then continuing under a raised bed (again, depth unknown).
Spur "A"
Fed a single single weatherproof socket before continuing to a weatherproof junction box where the 2.5mm T&E was connected to 4mm 3 core SWA via a terminal strip. The SWA had then been buried before exiting the ground a metre before a decking area. The SWA then fed a series of post lights (IP23 rated) which had been installed on the decking.
Condition of Spur "A"
- 2.5mm T&E -> 4mm SWA
- Weatherproof socket showed clear signs of water ingress
- Weatherproof junction box cover was missing exposing terminal strip
- SWA appeared to be glanded correctly at the origin (junction box) but glanding at decking unknown (junction box(es) inaccessible beneath decking)
- Post lights showed clear signs of water ingress
Spur "B"
Fed a single single weatherproof socket before continuing to a first weatherproof junction box where the 2.5mm T&E was connected to 4mm 3 core SWA via a terminal strip. The SWA had then been buried before exiting the ground a metre before a decking area. The SWA then fed a second single weatherproof socket attached to the deck.
Condition of Spur "B"
- 2.5mm T&E -> 4mm SWA.
- First weatherproof socket showed clear signs of water ingress.
- Weatherproof junction box cover was missing exposing terminal strip.
- SWA not glanded at second weatherproof socket.
Initial tests
- continuity - r1, r2, rn satisfactory on both spurs.
- insulation resistance - spur "A" < 20 MOhm, spur "B" > 500 MOhm (just the spur "runs").
Remedial action
Spur "A"
- Replaced faulty PowerBreaker RCD Fused Spur.
- Weatherproof socket replaced, Wiska box and Qinetic wireless switch fitted. Wago connections.
- Wiska box and Qinetic wireless switch fitted. SWA glanded. Wago connections.
- Post lights dismantled and terminal strips replaced with Wiska Shellboxes and Wagos connections.
Spur "B"
- Replaced faulty PowerBreaker RCD Fused Spur.
- First weatherproof socket replaced, Wiska box and Qinetic wireless switch fitted. Wago connections.
- Wiska box and Qinetic wireless switch fitted. SWA glanded. Wago connections.
- Second weatherproof socket replaced, Wiska box and Qinetic wireless switch fitted. Wago connections.
Finally, my question! Clearly, the circuit that has been altered is the downstairs ring final circuit. In order to conduct an insulation resistance test I will need to bypass the Powerbreaker units. The other issue is the age of the neighbours... They've already told me that they're not sure what loads are connected and where! An MEIWC requires test results for L-E, L-N, and N-E.
If the test is made with the Line and Neutral conductors connected together and earth, is it acceptable to use that value for all 3?
Thanks!
