Skip to product information
1 of 3

ViCloud VMT Flat Round
Ceiling-suspension acoustic cloud in colors

ViCloud VMT Flat Round Ceiling-suspension acoustic cloud in colors

Sold 241,69€  per unit (excl. VAT)  per unit (incl. VAT)
Regular price Sale price 966,79€
or Regular price 966,79€ (excl. VAT) (incl. VAT)  per  Box 4 units
Sale Sold out
Free! (In selected countries)
Delivery time: 1-2 weeks (est.)
Color: Black

Custom design or color

Order Sample Kit Flat Panel VMT
Order Sample Kit

Lightweight ceiling-suspended acoustic cloud to reduce noise

ViCloud VMT Flat Round is a simple and lightweight, suspended acoustic solution that is ideal for restaurants, open plan offices, convention centers, atriums, or any public space where there is a great concentration of people and where background noise, created by a room full of conversations, can quickly build up.

ViCloud VMT Flat is certified with Indoor Advantage™ Gold Building Materials, by SCS Global Services, meaning it contributes to credits in LEED, WELL, RESET, BREAM, and other green building rating systems.

Being a suspended acoustic element, it presents twice the area of absorption material than a common acoustic panel, making it a very effective solution for venues with high ceilings. The minimum installation height of the clouds is 500mm and the maximum is 1180mm from the ceiling. For exquisite architectural soundscapes, that subtly align with your existing or newly renovated space, ViCloud VMT Flat Round may just be the solution you need.

Dimensions

Ø1160x40mm

Acoustic Performance

Medium and High Frequencies Absorption

Materials

VicPET Wool

Documents

Care Instructions

Very easy to clean and maintain. To clean use only a damp cloth or vacuum with a soft brush.
View full details

Please notice that the dimensions of these panels have a tolerance of +/- 2mm. A slight color variation may occur between different batches. The product images used are illustrative and may differ from the actual product. Do not apply VMT panels behind radiators or too close to a heat source.