Difference between revisions of "Flex"
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− | [[image:Cavo3x1.5-2.jpg| | + | [[image:Cavo3x1.5-2.jpg|right|200px]] |
'''Flex''' is stranded electrical wire used for all plug-in mains appliance leads. It is also called flexible cable. | '''Flex''' is stranded electrical wire used for all plug-in mains appliance leads. It is also called flexible cable. | ||
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==Colour== | ==Colour== | ||
− | [[image:Cable colours 1179- | + | [[image:Cable colours 1179-5.jpg|right|200px]] |
Current colours: | Current colours: | ||
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==2 Core Flexes== | ==2 Core Flexes== | ||
− | [[image:Flex 2 core flat | + | [[image:Flex 2 core flat 0835-8.jpg|right|200px]] |
Flexes are available with 2 or 3 cores (conductors). 2 core flex is only suitable for appliances that don't need an earth connection (marked [[image:DoubleInsulated.jpg]]), and should not be used for extension leads with 3 pin sockets. | Flexes are available with 2 or 3 cores (conductors). 2 core flex is only suitable for appliances that don't need an earth connection (marked [[image:DoubleInsulated.jpg]]), and should not be used for extension leads with 3 pin sockets. | ||
2 core flexes are available in both round and oval shape. Oval (flat) uses less material, but any twisting of the flex is visible, whereas it isn't with round. | 2 core flexes are available in both round and oval shape. Oval (flat) uses less material, but any twisting of the flex is visible, whereas it isn't with round. | ||
− | |||
==Multicore== | ==Multicore== | ||
− | [[image:Flex 4 core | + | [[image:Flex 4 core 0380-5.jpg|right|200px]] |
Multicore mains flexes are also available for those uncommon tasks requiring more conductors. Non-mains multicores, such as [[Low Voltage Wiring|alarm cable]], are not suitable for mains use. | Multicore mains flexes are also available for those uncommon tasks requiring more conductors. Non-mains multicores, such as [[Low Voltage Wiring|alarm cable]], are not suitable for mains use. | ||
− | |||
==Insulation== | ==Insulation== | ||
===PVC=== | ===PVC=== | ||
− | [[image:Flex blue n pink 0379-4.jpg| | + | [[image:Flex blue n pink 0379-4.jpg|right|200px]] |
Most flex has PVC insulation rated to 70°C. | Most flex has PVC insulation rated to 70°C. | ||
− | 90°C PVC is also available for use in hot locations, such as for immersion heaters. A higher temp rating means a given conductor size | + | 90°C PVC is also available for use in hot locations, such as for immersion heaters. A higher temp rating also means a given conductor size may carry more current in some (very limited) circumstances. however practically it is not usually possible to take advantage of this increase in capacity since the normal BS 1363 plugs, sockets and flex connection units are not rated for the higher temperature. |
− | |||
===Arctic=== | ===Arctic=== | ||
− | [[image:Flex | + | [[image:Flex Arctic 0378-6a.jpg|right|200px]] |
Arctic flex remains flexible at low temperatures, whereas regular PVC stiffens. Arctic flex is used for outoor appliances, eg on building sites. It is rated for use down to -40°C. | Arctic flex remains flexible at low temperatures, whereas regular PVC stiffens. Arctic flex is used for outoor appliances, eg on building sites. It is rated for use down to -40°C. | ||
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===Cloth=== | ===Cloth=== | ||
− | [[image:Flex cloth | + | [[image:Flex cloth 0381-5.jpg|right|200px]] |
Flexes with a cloth outer have rubber inner insulation. These have a high temperature rated outer surface. They are well known for their use on irons. | Flexes with a cloth outer have rubber inner insulation. These have a high temperature rated outer surface. They are well known for their use on irons. | ||
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The rubber inner insulation can harden and break at the ends. This is often seen on old cloth flexes. When this occurs the flex can be cut back several inches to reveal healthy flex, and reconnected, if the rest of the flex is still healthy. | The rubber inner insulation can harden and break at the ends. This is often seen on old cloth flexes. When this occurs the flex can be cut back several inches to reveal healthy flex, and reconnected, if the rest of the flex is still healthy. | ||
− | === | + | ===Silicone=== |
− | + | Soft high temp plastic insulation sometimes found on irons. Much more heat resistant than PVC | |
+ | |||
+ | ===Hi vis=== | ||
+ | [[image:Flex hivis 0378-6b.jpg|right|200px]] | ||
+ | Used with mowers etc, where visibility is important for safety | ||
===Figure of 8=== | ===Figure of 8=== | ||
− | [[image:twin_flex_clear.jpg|200px]] | + | [[image:Figure 8 flex 5709-3.jpg|right|200px]] |
+ | [[image:twin_flex_clear-2.jpg|right|200px]] | ||
Figure of 8 shaped plastic flex was formerly used for low current mains uses. It has a single layer of insulation only, and live conductors are easily exposed by minor damage. It was used in several colours, including black, brown, white and clear. | Figure of 8 shaped plastic flex was formerly used for low current mains uses. It has a single layer of insulation only, and live conductors are easily exposed by minor damage. It was used in several colours, including black, brown, white and clear. | ||
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|} | |} | ||
− | Note that | + | Note that current carrying capacities are only approximate, and vary with exact construction and materials used for the flex. |
+ | |||
+ | For data on how much 90°C insulation changes current ratings, see [[Cable]] | ||
+ | |||
+ | |||
+ | ==Laying flat== | ||
+ | PVC flexes have a habit of not laying flat, and bending wherever they were folded in the past. 3 types of flex can avoid this problem: | ||
+ | * silicone | ||
+ | * rubber | ||
+ | * string filled pvc | ||
+ | |||
==See Also== | ==See Also== | ||
* [[Cables]] | * [[Cables]] | ||
+ | * [[Understanding harmonised cable codes]] | ||
* [[Low Voltage Wiring]] | * [[Low Voltage Wiring]] | ||
* [[Special:Allpages|Wiki Contents]] | * [[Special:Allpages|Wiki Contents]] | ||
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[[Category:Electrical]] | [[Category:Electrical]] | ||
+ | [[Category:Basics]] |
Latest revision as of 09:38, 10 January 2013
Flex is stranded electrical wire used for all plug-in mains appliance leads. It is also called flexible cable.
Cable on the other hand is unstranded mains wire not suited to repeated flexing, and is used for fixed installations.
Colour
Current colours:
- L - brown
- N - blue
- E - green/yellow striped
Old colours: (until about 1970)
- L - red
- N - black
- E - green
Colours on US appliance leads:
- black = live
- white = neutral
2 Core Flexes
Flexes are available with 2 or 3 cores (conductors). 2 core flex is only suitable for appliances that don't need an earth connection (marked ), and should not be used for extension leads with 3 pin sockets.
2 core flexes are available in both round and oval shape. Oval (flat) uses less material, but any twisting of the flex is visible, whereas it isn't with round.
Multicore
Multicore mains flexes are also available for those uncommon tasks requiring more conductors. Non-mains multicores, such as alarm cable, are not suitable for mains use.
Insulation
PVC
Most flex has PVC insulation rated to 70°C.
90°C PVC is also available for use in hot locations, such as for immersion heaters. A higher temp rating also means a given conductor size may carry more current in some (very limited) circumstances. however practically it is not usually possible to take advantage of this increase in capacity since the normal BS 1363 plugs, sockets and flex connection units are not rated for the higher temperature.
Arctic
Arctic flex remains flexible at low temperatures, whereas regular PVC stiffens. Arctic flex is used for outoor appliances, eg on building sites. It is rated for use down to -40°C.
On sites yellow is used for 110v and blue for 240v.
Rubber
TRS (tough rubber sheath) is a flex with greater mechanical strength and damage resistance than PVC. It is used when some degree of rough use can be expected.
VIR is discussed further down.
Cloth
Flexes with a cloth outer have rubber inner insulation. These have a high temperature rated outer surface. They are well known for their use on irons.
Old cloth insulated flexes are prone to kinking, with the inner rubber insulated wires poking out at the kinks. New cloth insulated flexes have a layer of rubber under the cloth that discourages this from happening.
The rubber inner insulation can harden and break at the ends. This is often seen on old cloth flexes. When this occurs the flex can be cut back several inches to reveal healthy flex, and reconnected, if the rest of the flex is still healthy.
Silicone
Soft high temp plastic insulation sometimes found on irons. Much more heat resistant than PVC
Hi vis
Used with mowers etc, where visibility is important for safety
Figure of 8
Figure of 8 shaped plastic flex was formerly used for low current mains uses. It has a single layer of insulation only, and live conductors are easily exposed by minor damage. It was used in several colours, including black, brown, white and clear.
Such flex has been unlawful to fit to mains appliances for decades, but is still occasionally seen in use. Today this flex type is used as speaker wire.
Twisted Pair
2 core cloth & rubber (VIR) twisted mains flex with no outer sheath was once in common use. Most was dark red or brown. This flex has been obsolete for decades, and is rarely seen today. Occasionally its seen on historic electrical goods, and when found is usually in a dangerous condition. Apart from not meeting modern safety requirements, the rubber tends to harden, perish and disintegrate over time, exposing bare live wires. Despite once being in widespread use, it is rarely seen today because it deteriorates badly over time.
Conductor Sizes
Flex conductor size (mm²) | Approx max current (PVC insulation) |
---|---|
0.5 | 3A |
0.75 | 6A |
1.0 | 10A |
1.5 | 15A |
2.5 | 20A |
4.0 | 32A |
Note that current carrying capacities are only approximate, and vary with exact construction and materials used for the flex.
For data on how much 90°C insulation changes current ratings, see Cable
Laying flat
PVC flexes have a habit of not laying flat, and bending wherever they were folded in the past. 3 types of flex can avoid this problem:
- silicone
- rubber
- string filled pvc