Composite lighting column is the basic product of Alumast SA that has been produced because 2008. Alumast is the first firm in this part of Europe that ran its own manufacturing plant for these solutions. Composite poles comply with the greatest standards concerning passive safety standards and are produced accordant to the EN 40-7 standard. Composite sticks are mild, easy to transport, and incredibly powerful. They do not conduct electricity so that they are ideal for the energy or railroad industry.

Compillar is a team of professional boatbuilders using over twenty decades of expertise in composite manufacturing procedures. Beginning with poles for the lighting of streets, parks, and parking areas currently developing other products that can be useful for regular, nonyachting usage.

Why COMPILLAR columns?

Color – Masts are formed in a selected color of resin, characterized by high and long-term UV resistance. COMPILLAR columns can be finished matte or high gloss.

Resistance — COMPILLAR columns don’t rust under the same conditions. composite lighting column
do not change their possessions in the polluted environment,
acidic and moist, and are chemical.
COMPILLAR columns do not change its properties in a salt, acidic and moist atmosphere. Columns are chemically resistant and environmentally friendly.

Strength – composite power is higher compared to steel. Electrical insulation – COMPILLAR columns are non conductive, eliminate risk of electrical shock.

Weight – Weight of GRP composite is 4-times lower than the weight of steel. Due to the low mass COMPILLAR poles help reduce costs of transport and setup.


High grade of materials used in production, ensure UV resistance. The smooth surface enables the simple removal of dirt and paste residue from posters. Additional silicone coatings can be applied to the column surface to improve upon its ability to resist dirt and glue residue. Graffiti removal — paint traces can be removed with acetone solvent, without damaging the surface.

Kingsmill Composite Lighting Columns are resistant to rust. Columns mounted in the floor directly don’t have metal parts that could otherwise corrode. Directly buried columns resist the corrosive effects of road salts, traffic pollution and animal urine. Dew point is reduced, thus stopping icing and moisture impacting electrical control equipment.

The lifetime of those columns is 40+ years.

Production methods have low CO2 emission. The composite columns don’t lead to interference for radio waves, microwaves, radars and other airport infrastructure.

Glass-polyester composite is an insulating substance. A composite pillar installed directly in the floor doesn’t have any metal components that require earthing. There is no galvanic connection between the column (directly buried) and active installation wires or control equipment.

Even in the event of a damaged cable insulation, a wet column surface or vandalisation, the buried column doesn’t produce a dangerous touch voltage.

A 60mm diameter aluminum sleeve mounted in the cover of the column permits easy link to luminaires or brackets.

The lighting column is mild — a 9 metre composite pillar weighs just 59kg. Columns can be handled by two men. Shipping costs are reduced. Installation times are faster than for conventional metallic columns. The column needs a smaller base than that of conventional metal columns. Theft deterrent — the column has no scrap value. The pillar is vandal and graffiti resistant.

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