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Lighting Columns

Constructed from composite material using the latest manufacturing techniques, TMP Spectralyte Passively Safe Lighting Columns have been tested to EN-40 & BS EN 12767:2007 and carry a 30 year guarantee.  Available in 4m to 18m heights each column can be used with either a single or double luminaire.

 

 

Lighting Columns Product PAge Final

TMP Passively Safe Lighting Columns

 

Quite rightly, more and more emphasis is being placed on the provision of passivley safe structures on the UK highways.  The specification of these columns and posts will help reduce casualties on our roads.

 

Manufactured from composite material the complete range of TMP Spectralyte passively safe, fibre composite, signposts, lighting columns and LED illuminated posts are fully compliant with BS EN 12767 and EN 40-7.  Each post or column has been crash and strength tested for every type and dimension in the range, offering many benefits in terms of performance and safety.  In comparison with steel and aluminium, they weigh far less, have a greater tensile strength, are less susceptible to corrosion, have no scrap value, can be supplied in a wide range of colours and are maintenance free.

 

Whilst the standard product is manufactured to look like steel, colour pigments can be added to create a wide range of finishes.  Installation is simple as the TMP Spectralyte columns and posts are compatible with all major types of sockets and bases and they can be used for any type of sign and luminaire, using a standard fixing.



Lighting Column Image 1
Lighting Column Image 2

 

Full testing of the complete range of TMP Spectralyte signposts and lighting columns has been carried out at the TNO Crash Testing Facility in The Netherlands.  Copies of the full certification are available on request.

 

In accordance with BS EN 12767 passive safety support structures are tested and classified to the following criteria:

 

  1. Speed - Support structures must be crash tested at one of the 3 speeds 50, 70 and 100kph.  An associated low speed test at 35kph, for each Speed Class, is also required.  Speed Class 100kph is recommended for use on roads where the imposed speed limit or design speed equals or exceeds 50mph (80kph).

  2. Energy Absorption - It is necessary to specify an energy level (related to how much the specified crash vehicle is to be slowed by the impact) from one of the following categories:

    • High energy absorbing (HE) - HE posts/columns slow down and stop vehicles with a short yet gradual retardation.

    • Low energy absorbing (LE) - LE signposts, lighting columns and traffic signal posts will have some of the qualities of both HE and NE equipment.  The errant vehicle speed will be reduced and damage to the vehicle will be less than if it had hit an HE support structure.  The signposts, lighting columns and traffic signal posts will be less likely to separate from the base and be thrown into the air on impact than NE equipment.  LE posts (when developed) and lighting columns are thus likely to be suitable for areas with regular NMUs.

    • Non energy absorbing (NE) - NE signposts, lighting columns and traffic signal posts break away and/or deform relatively easily on being hit so that the errant vehicle will continue at roughly the same speed with only relatively light damage to the vehicle.  The signposts, column or traffic signal post will typically buckle on impact before shearing at the base with limited structural damage to the vehicle.  The sheared signpost and sign fascia, lighting column or traffic signal post are typically displaced over the top of the vehicle and fall in the vicinity of the foundation.  NE signposts are likely to be the most appropriate product for signposts, lighting columns and traffic signal posts for roads in rural areas without regular NMUs.

 Occupant safety levels - The occupant safety levels are specified in BS EN 12767.  They are determined by the occupant risk requirements ASI and THIV which are categorised by the standard from 1 to 4, with increasing levels of safety reflected by higher numbers, as stated in Table 3 of BS EN 12767.

 

  • Acceleration Severity Index (ASI) - Is a non-dimensional value calculated from triaxial accelerations in accordance with BS EN 1317-1.  The maximum ASI value is considered to be an assessment of the accident severity for the occupants of the impacting vehicle.

  • Theoretical Head Impact Value (THIV) - Is the velocity, expressed in km/h, at which a hypothetical 'point mass' occupant impacts the surfaces of a hypothetical occupant compartment and is calculated in accordance with BS EN 1317-1.

Passively Safe

In line with the above criteria, the following passive safety performances were achieved for the TMP Lighting Columns.

 

 

 

Desription   Diameter  Passive Safety Performance Type
 CP4 Lighting Column  114mm  100, NE, 3
 CP4-CP10 Lighting Column  >114mm to < 200mm       100, NE, 2
 CP10-CP12 Lighting Column  >200mm to < 250mm   100, LE, 3
 CP13-CP18 Lighting Column  >250mm to < 300mm   100, HE, 3

 

 

The following table sets out the dimensions for the most commonly used lighting columns.  Each column is compatible with all major types of sockets and bases and can be used for any type of sign and luminaire, using a standard fixing.

 

 

    CP4  CP6  CP8   CP10  CP12  CP15 CP18 
A. Diameter plant part  mm      ø140     ø140      ø170       ø200       ø250        ø300  ø300
B. Diameter top mm       ø76       ø76       ø76         ø76         ø76         ø76    ø76
C. Mass kg          17         23         42          81           93         133    170
D. Wall thickness mm         3.8        3.8        4.5         5.3          5.3         5.3     5.3
E. Length composite mm      3870     5870      7870       9870     11870     14870 17870
E + L. Nominal Height mm      4000      000      8000     10000     12000     15000 18000
F. Planting depth mm      1000     1000      1500       1500       1700       2000  3000
G. Door opening mm        600       600       600         600       1000       1000  1000
H. Door opening size cm 

40

 x

10

40

x

10

40

 x

10

60

 x

11.5

60

 x

11.5

60

 x

11.5

60

 x

11.5

I.  Cable entry slot  mm 

150

 x

50

150

 x

50

150

 x

50

150

 x

50

150

 x

50

150

 x

50

150

 x

50

J.  Cable opening depth mm        500       500       500         500         500         500    500
K.  Interior Dimensions  mm     

110

 x

110

165

 x

165

180

 x

180

200

 x

200

200

 x

200

L. Luminaire mm        130       130       130         130         130         130    130

 

Despite best efforts to improve road safety through engineering, education and enforcement measures, road crashes, by their random and multi-casual nature, continue to happen at an unacceptable rate.

 

TMP are therefore proud to support 'the passive revolution' who provide an improved understanding of the current standards, advice and isses relating to the provision and maintenance of safer roadside features.

 

Their aim is to encourage design engineers to consider the consequences of placing unforgiving, unprotected items by the side of the road and promote better practices in the design and use of passively safe alternatives.

 

Find out more at www.thepassiverevolution.co.uk

 

 

 

 

 

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Lighting Column Dimensions