Stretch fabric system
as suspended elements, hanging wall, partition wall, screen
|Thickness of the profile||
Blackback, Polyester 210 g/m²
RAL Classic colour palette – for an extra charge, silver anodized
angle brackets, profile, stabilising feet, stabilising profile with connectors (applies to 3.0 x 2.0 m and larger formats)
|Finish of material||
Silicone keder 14 x 3 mm
easy installation, quick graphics replacement, reusable design
ZEN Double aluminium Stretch fabric systems are constructions based on an aluminium profile with special slots for mounting the fabric. They display graphics printed on fabric on both sides of the frame, which are perfectly stretched. They complement the interior design of retail, service and office spaces, while also providing advertising space. Whether advertising, image or decorative graphics are presented on the frame, ZEN Double aluminium frames look attractive.
Free-standing stretch fabric system based on 49 mm aluminium profile
For the construction of ZEN Double frames, we use a high-quality anodised aluminium stretch fabric system with a depth of 49 mm. This type of aluminium profile ensures their stability and with the use of additional feet allows the frame to be placed on any flat surface. It can successfully serve as an advertising wall or even a partition wall when dividing space. There is also the option of suspending such a frame from the ceiling.
Double-sided aluminium stretch fabric system for ZEN Double frames
The aluminium stretch fabric system used for the ZEN Double frame allows a fabric with printed graphics to be inserted into both sides of the frame. This means that any two graphics can be printed and displayed at the same time using one double-sided frame. This is possible thanks to special slots made on both sides of the profile, in which the fabric trimmed with 14 x 3 mm silicone keder tape can be easily inserted. You can order from us either small stretch fabric system consisting of several elements or much larger ones, where it will be necessary to connect the profiles. Both will look aesthetically pleasing, as the joining of the profiles is completely invisible once the whole is assembled and the graphics are attached.
Reusable stretch fabric system
The aluminium stretch fabric system we use enables us to make frames of any size which are reusable with any graphics. What does this actually mean? It means that the material with the graphics can be changed several times without having to dismantle the frame. You can have one frame and display different graphics on it from time to time depending on your needs, the season, promotions, changing interior or booth decor, etc. Due to the ease of assembly and changing graphics, aluminium frames work well, among other things, for temporary exhibitions such as at trade fairs, conferences and other industry events. They are also an elegant, permanent element of interior design.
Assembly of a stretch fabric system based on a 49 mm aluminium profile
The ZEN Double stretch fabric system consists of cut aluminium profiles, angle mounting brackets and two graphics printed on textile material. Depending on whether you want to place the ordered frame on a flat surface or suspend it from the ceiling, the set may include special feet or hooks. In the case of larger frames (width or height greater than 2 m), the sides are supplied in parts with profile connectors and stabilising profiles. The assembly of a ZEN Double stretch fabric system is very easy and requires no special tools, only an Allen key, which is included in the set. First the profiles are assembled using the supplied connectors and then the sides are connected together using the angle mounting brackets and Allen key. It is a recommend to install the feet to give the frame more stability. At the end are the graphics mounted on both sides. The material with the printed graphics is trimmed with silicone tape so that the edges can be easily inserted into the slots in the profiles. The graphics can be easily removed later and new graphics inserted without dismantling the whole structure.