Basic insulation exposed in electrical outdoor meter box.

AMK said:

There’s debate about exposed basic insulation in meter cupboards being satisfactory or not

Its a C2 from me.  As is shoddy SWA termination or lack of.

SWA needs to be terminated correctly and double insulation cables SHOULD be present.  Some people would say this is insulation and mechanical protection but most people call it Double Insulated.  There is also a Deflecting argument of 
    Is a meter cabinet an electrical enclosure?

People need to look at this in 2 distinct scenarios
 - Domestic Dwelling with outdoor meter cabinet, of which there are 2 variants, In Wall and On Wall
 - Domestic dwelling with indoor cabinet

Other scenarios are also available like industrial or commercial but I will focus on UK domestic dwelling to make it easier


Domestic Dwelling with outdoor meter cabinet
 - Risk of UV degradation 
 - Risk of Impact or Damage 
 - Risk of door being removed/severely damaged by bad weather or person making the term enclosure or cabinet compromised
 - Risk of Children or Disable/Lesser-abled person or mentally impaired person making contact.  Normally meter cabinet/cupboard height dependant
 - Risk of unskilled person or homeowner needing access to the content of meter cabinet for legitimate reasons like read meter or Isolation in the event of a fault or fire.
 - Risk of malicious intent like vandalism or common criminality  
 - There are other points of consideration as well so this list is not exhaustive.

Domestic dwelling with indoor cabinet
 - Risk of Impact or Damage lowered but NOT eliminated.  A lot of UK home have the point of original under the stairs in an average house
 - Risk of Children or Disable/Lesser abled person or mentally impaired person making contact.  Normally meter cabinet/cupboard height dependant
 - Risk of unskilled person or homeowner needing access to the content of meter cabinet for legitimate reasons like read meter or Isolation of a fault or fire.
 - There are other points of consideration as well so this list is not exhaustive.

With the above being said the outdoor scenario carries a higher inherent risk due to external influences like weather and physical damage and possibly animals.  Now let’s consider  the above 2 situations under normal working/operating conditions and under fault conditions.  As a casing point who in the UK has see a meter cabinet with a missing front door?  Or cabinets/cupboard with a pool or pooling of water inside?

Other points to consider or discuss between the community and IET, BSI and ENA (Energy Network Association) is that when SWA (Steel Wire Armour) is used into the outdoor cabinet/cupboard then there should be A Designated Entry point into the meter cabinet.  
Eg Domestic Dwelling outside ON Wall meter cabinet then ONLY bottom entry is allowed in right hand corner.   
Eg Domestic Dwelling outside IN Wall meter cabinet then ONLY rear entry is allowed in lower right hand corner.   

Entry points need to be discussed further as the Bend Radius for SWA is quite different to Flexy Tails or Split Concentric cable.

All meter box penetrations MUST be from Below or REAR and MUST/SHALL be Gasket or INTUMESCENT SEALED.  SIDE or TOP penetrations are FORBIDDEN into the meter cabinet/cupboard.

IF SWA is used in the meter cabinet/cupboard then it MUST be Terminated correctly, this may take the form of an approved glanding into a WISKA box (other brands are available). There MUST NOT be SWA single insulation on show.  Non approved SWA glands are FORBIDDEN.  The same applies to Split Centric cables.  The Split Con MUST be terminated correctly or to manufacturers instructions.

In summation the meter cabinet SHALL have cables that ARE double insulated to provide an extra safety layer, protecting Property, People and Live Stock on the CUSTOMER SIDE with a functional and intact door.  If it does not then I refer you to NASA and the document they published called 

Normalization of deviance

Sergio Fernandez said:

Is a meter cabinet an electrical enclosure?

Yes it is.  And for that reason, most of the other stuff you have written is irrelevant.

What happens when the door to the cabinet is missing or damaged, thus allowing access without a key or a tool?

The average Un-Skilled person would not normally enter an electrical enclosure, but they DO enter the OUTDOOR meter cupboard/cabinet for legitimate reasons like to read the meter or top up the meter on a prepay or to advise the DNO of the flashing light colour during a power-cut.

Additionally if the SWA in not Glanded correctly then moisture ingress can occur and corrode the armour of the SWA

Definitions and interpretation again!

Enclosure. A part providing protection against certain external influences ... ticks that box ... and in any direction providing basic protection. Not sure about that.

Basic protection. Protection against electric shock under fault-free conditions. NOTE: For low voltage installations, systems and equipment, basic protection generally corresponds to protection against 'contact of persons or livestock with live parts'.

This thread is about exposed basic insulation.

Basic insulation. Insulation applied to live parts to provide basic protection ...

Given that the live conductors already have basic insulation, and accordingly, basic protection, the meter cabinet can hardly be providing it as well.

If there is, for example, a REC2 in there, the actual switch sits in its own enclosure, otherwise its terminals would be exposed. I suggest that the cabinet's purpose is to protect the DNO's tackle from the weather rather than to protect persons (and livestock) from it.

Chris Pearson said:

Given that the live conductors already have basic insulation, and accordingly, basic protection, the meter cabinet can hardly be providing it as well.

I'm not sure I follow, in terms of Regulation 410.3.2. Isn't the point that the combination of "enclosure + basic insulation" is providing the equivalent of double or reinforced insulation (it's basic protection + mechanical protection) per Regulation 412.2.2.1?

Chris Pearson said:

Given that the live conductors already have basic insulation, and accordingly, basic protection, the meter cabinet can hardly be providing it as well.

I'm not sure I follow, in terms of Regulation 410.3.2. Isn't the point that the combination of "enclosure + basic insulation" is providing the equivalent of double or reinforced insulation (it's basic protection + mechanical protection) per Regulation 412.2.2.1?

This still leaves open the debate about the SWA not being terminated correctly and WHY a meter cabinet/cupboard does not mandate that ONLY rear or bottom entry with the penetration being correctly seeled. Entry points need to be discussed further as the Bend Radius for SWA is quite different to Flexy Tails or Split Concentric cable.

Below is my attempt at some possible wording.

All meter box penetrations MUST be from Below or REAR and MUST/SHALL be Gasket or INTUMESCENT SEALED.  SIDE or TOP penetrations are FORBIDDEN into the meter cabinet/cupboard.

IF SWA is used in the meter cabinet/cupboard then it MUST be Terminated correctly, this may take the form of an approved glanding into a WISKA box (other brands are available). There MUST NOT be SWA single insulation on show.  Non approved SWA glands are FORBIDDEN.  The same applies to Split Centric cables.  The Split Con MUST be terminated correctly or to manufacturers instructions.

In summation the meter cabinet SHALL have cables that ARE double insulated to provide an extra safety layer, protecting Property, People and Live Stock on the CUSTOMER SIDE with a functional and intact door. 

I accept that a meter cabinet is capable of providing the supplementary insulation portion of double insulation, but then care would be needed with the earthing conductor.

If the MET were in the distribution board and connected to the service head by a length of G/Y, all well and good; but if the traditional MET consisting of a steel block with two rows of screws, especially with a TN-S supply, is in there, it needs to be insulated and marked (412.2.2.4).

Or it simply is not an enclosure.