It’s wise to add an element to every trade fair set-up that visitors will gravitate towards. Octaluma’s bar table can become the centrepiece of your trade fair layout. People will gather around it to learn about your products and services. With the help of four-sided LED lighting, you will definitely increase your advertising and, consequently, the visibility of your company.
The compact design of the illuminated bar table ensures easy assembly and even easier dismantling. The minimum weight of the entire structure of 14 kg will not weigh you down during construction and transport. Using lightweight aluminium parts in matt finish, you will build the table frame in 570 mm (width) x 1031 mm (height) x 570 mm (depth). Finally, you will sew the advertising canvas with silicone edge into the resulting housing.
Octaluma’s bar table is illuminated on all four sides. The LED lights are mounted on an upright profile in the housing. Thanks to their strong glow, they are able to illuminate the embedded canvas evenly, 498 mm (width) x 998 mm (height), from edge to edge, without unwanted shadows. The colour of the light, which is 6500 Klevin, is comparable to white daylight.
The construction of the Octalumina bar table is cleverly designed. High-quality aluminium parts make up a sturdy frame that can support the weight of all four canvases and the weight of all the products you will place on top of the table. The grooves of the metal frame are closely matched to the silicone edge of the clamped canvas. The close connection makes the aluminium corners invisible. Octaluma’s bar table has earned CE certification to meet EU safety requirements.
Octaluma’s bar table is recognisable for its elegant square appearance and practical construction designed for advertising. You will easily fit your promotional canvas into the minimalist aluminium frame, which will come alive in its full colour spectrum thanks to the installed LED lighting. Brochures, leaflets and other promotional material can be displayed on the table’s sturdy and flat surface.