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ENSAVE Ventilated facade systems helps to achieve a modern look and improved comfort of every construction. Our Ventilated facade systems allows you to modify the character of your building and it presents different types of technical solutions for each project. Hire you can find full information about our product range, information for architects and installers. Using our configurator you will get an idea of your future project at a glance. We give you the opportunity to experiment with the different types of our systems, cladding material and types of fastening.

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Ventilated facade cladding is the attachment of an outer skin of rear-ventilated cladding to a new or already existing building

The ventilated ffacade system is a form of double-wall construction that uses an outer layer to keep out the rain and other atmospheric influences and an inner layer to provide thermal insulation, prevent excessive air leakage and carry wind loading. The outer layer breathes like a skin and protect the inner layer which reduces energy losses.

The structural frame of the building is kept absolutely dry, as water never reaches it or the thermal insulation. Evaporation and drainage in the cavity space between inner and outer layer removes water that penetrates between panel joints.

Water droplets are not driven through the panel joints or openings because the ventilated facade principle means that wind pressure acting on the outer face of the panel is equalised in the cavity. Therefore, there is no significant pressure differential to drive the rain through joints.

During extreme weather, a minimal amount of water may penetrate the outer cladding. This, however, will run as droplets down the back of the panels and be dissipated through evaporation and drainage.

 Main advantages of ventilated facades:

  • High funtionality in terms of building physics
  • Energy efficient through use of insulation
  • Thermal insulation stays permanently dry due to ventilation
  • High comfortable indoor climate due to vapor diffusion coefficient
  • Cooling effect in summer time due to barriere effect of the ventilation gap
  • High thermal insulation increase heat transition from inside ans also outside
  • High fire protection due to use of high fire resistant materials
  • High noise absorption due to characteristics of insulation
  • Lightning protection due to use of our metallic substructure and cladding can serve as natural lightning conductor or can be also connected to separate lightning conductor systems.

Facing panels made of metal have good aesthetical, economic and ecological features.
Aluminium, galvanized or stainless steel and cuprum are used as raw materials for production of this kind of facing.
Facing is made of thin metal sheets and produced in a form of linear panels, profiled sheets and metallic panels of any sizes, forms and color. Powder paint or polymer film is used for coating.
The use of this kind of facing allows designers to select easily the required combination of colors and forms for architectural ensemble being developed.


Relevant Systems


Step 1

Assembly planning

Design, calculation and planing of the substructure according codes and norms.

Step 2

Transfer attachment points

Befor installing the substructure, Transfer of the attachment points is needed.

This can be done traditionally with a shoock cord or with using totalstations to create the marking of fastening points in the vertical plane on facades and walls.

Step 3

Assembly of brackets

The brackets are mounted in vertical orientation on different types of basematerials concrete, masonry, steel and wood.

Step 4

Assembly of the insulation

The insulation is placed between the supporting structure and our brackets.There is no space between insulation panels – in accordance to the guideline of the insulation manufacturer. The fixation of the insulation need to be done also in accordance to the guidline of the insulation manufacturer.

Step 5

Align and fasten profiles

The distance between profile is decided in the panel manufacturers guidline and according our statical calculation. Our Fastening clip supports the alignment of the profiles. The connection between the profile and the bracket is made with self-drilling screws or rivets using fixed and flexible points.

Step 6

Assembly of the facade panels

This last step creates the face of the building. Also in the last step it is important to follow the guidline of the cladding manufacturer to avoid failures. There main to types of panel assembly. Visible and concealed cladding fixation.

Design Phase

ENSAVE provides full support for the project with our specialists who develop and optimize your project.

In this stage we offer following services:

  • Systemdrawings
  • Specification text
  • Elevation drawings
  • Bill of material
  • Special solution
  • Preliminary U-value calculation
  • Static preliminary design

Installation Phase

ENSAVE supports the customer with a wide range of services in order to help in this crucial step.

In this stage we offer following services:

  • Optimized delivery
  • Wet stamping (stamped calculation report by an external civil engineer)
  • On Site support
  • Panel disposition drawings
  • Project specific drawings

Execution Phase

ENSAVE supports the customer up to the end of the project.

In this stage we offer following services:

  • Full documentation of the substructure
  • Warranty