Diffusion tight cold insulation
The best diffusion-tight cold insulation for your job.
Universal solutions can be expensive. Instead, go straight for designs that really fit. In terms of shape, color, company logo, design, surface finish and function. With custom-made diffusion-tight cold and heat insulation from ewers, you benefit from quality, easy handling and numerous design options. With a high vertical range of manufacture, from design and our own toolmaking to production, we produce economical individual solutions. Even in small quantities. We check your wishes in all areas for technical feasibility and realize your requirements quickly and precisely.
Insulation can be this efficient – ewers diffusion-tight cold insulation is high-quality, well thought-out and functional. They can be reused at any time. Installation and removal are uncomplicated. The close-to-body design reduces energy losses and keeps possible condensation and ice formation to a minimum. Use these and other advantages for your individual tasks and insulate economically right from the start.
No condensation, hardly any energy loss – Save yourself complications. With the accuracy of fit, humidity doesn’t stand a chance. And neither does energy loss.
Advantages at a glance
Stainless steel connecting clips tension the insulation system
Attachment point for adhesive tape connection with pipe insulation
Thanks to sophisticated ewers system with reinforced edge
Due to multi-shell system; quick assembly/disassembly
Insulation fits close to the body and reliably prevents moisture in the air from reaching the surface of the arm
Polystyrene outer skin in different colors and grains possible – Space for logos and texts
Short assembly times, reusable even after disassembly
Close-to-the-body, precision-fit fabrication stops energy loss and prevents moisture in the air from reaching the fitting surface
No damage thanks to smooth surface and surface protection
Easy to clean, easy to see from the outside – thanks to the contour adapted to the fitting
Dimensional stability and accuracy