How to light with an handrail lighting
fós, give climbers safe passage across a ground, or to produce a point staircase, If you ’re looking to add prestige to an entrance. This’; how- to’; guide takes you through the right questions to ask before starting a design.
1. How important light do you need?
The first thing to consider is, what’;s the lighting task? and what’;s the light position needed to meet it?
First and foremost, a rail provides functional lighting, achieving light situations in excess of 150lux and 40 uniformity! And there’s indeed an exigency option.
2. nonstop light or not?
Ar aghaidh, decide how you want the scheme to look from a lighting perspective. Do you want a nonstop line of light? If so, maximise module sizes and fill the spaces between the pillars and classes, darkening down to the required position( if over lit).
Our module is a perfect result for nonstop light, as it can be cut to any length. Alternately, you can design using the least number of modules to achieve the lighting design. modules were designed to achieve performance illumination and can be spaced several measures piecemeal whilst still achieving high uniformity( 40 plus).
3. ‘ Effect ’ or performance?
What are your lighting objects? Is performance or effect( we call it comfort lighting) your precedence? Our module is an ideal result for schemes where maximising the visual appearance of the module itself is of interest, it focuses on a tight pitch between LED’s, making sure that they aren’;t visible.
Alternately, if performance is your main motorist also conclude for a perfection optic similar.
Colour temperature is also a big consideration. Do you want to blend with girding colour temperatures or highlight? modules are available in 2700K, 3000K and 4000K colour temperatures as standard. is also available in RGB.
FlashBack opting an illuminated rail in a lower colour temperature( 3000K or under) will be more sympathetic to foliage and fauna and wildlife territories.
4. Architectural design
Now, to decide on the architectural aspect of the scheme, including finish and design.
A pristine sword profile offers a high- end flawless finish with no visible welds or joins. Whereas, an aluminium profile allows you to produce bespoke homestretches to round near armature – be it heritage or ultramodern. You can indeed choose a makeup finish that replicates brass or Corten.
In terms of the pier and/ or type design, there are colorful options-spherical, square, flat plated or bespoke to meet the conditions of the wider scheme. Or why not attach to structural glass for wow factor. For the lighting design, flash back the modules will need to be placed in- between pillars classes.
5. Small but important details
classes and pillars hold your scheme together, they’;re the backbone of your illuminated rail design. The size and lengths will be cargo dependent. thus, you need to ascertain the cargo demand of the scheme, allowing your manufacturer to advise grounded on your design choices.
6. Power force
Identify the position for the power force. These are generally located within a confluent pillar, underground quadrangle or, for internal operations, a specific room.
The position will determine the string entry points, allowing for string entry classes pillars to neatly take the string to the first module. The following modules, depending on the size of the scheme, can be daisy- chained within the rail.
7. Minimise light
Eventually, wherever your illuminated rail is installed, light is an important factor and should be avoided at all costs. We use colorful styles to stop light slip into areas conterminous to the lighting scheme. icing that all light is concentrated towards the task areas, without having to incline the light source, will further reduce the possibilities of creating light. modules are optimised to be used with 0- degree cock furnishing a genuine asymmetric light affair.
Then are our position specific pointers
Staircases
Wide staircases with centre banisters should use a symmetric distribution to give an indeed spread of lighting up the centre of a walkway. For veritably wide staircases, consider situating supplementary asymmetric modules to the sides, to increase content further.
On narrow breakouts, a single sided asymmetric module will be sufficient to achieve situations in excess of 100lux at ground position.
For levees, using a twisted rail where demanded will insure that there are no dark patches or black areas, which can lead to reduced uniformity situations and patchy looking lighting.
Will the rail be wall mounted or, separate to the wall and pier mounted?
Depending on the size of the staircase you may need power inventories at different situations so suppose about the casing of the power inventories.