Window Walls

Extremely energy efficient & sleek window walls that easily integrate into other fenestration systems

  • Description
  • Colors
  • Design Options
  • Slab Edge Cover
  • Louvers
  • Hardware options
  • Screens
  • Glazing
  • Tech Specs

INTUS Window Walls offer design flexibility, superior energy efficiency, noise reduction, and interior comfort. These polymer storefront solutions can be integrated into external aluminum doors so an array of needs and looks can be met for retail environments, schools, and commercial lobbies. The windows are Design Pressure (DP) rated up to DP70 and use double EPDM gaskets, ensuring excellent air and water tightness.


INTUS products use the high-end and innovative RENOLIT EXOFOL PVC decorative films. This German technology give our windows and doors beautiful colors and wood grain designs, while standing the test of time and weather. These extremely durable films last for decades in any North American climate – from the intense heat of Arizona’s dessert to the Alaskan tundra. They also reach the highest of quality and design demands, making the films suitable for any architectural style or building type.




  1. First/Base Layer: The base film uses color pigments with Solar Shield Technology which protect the profile against excessive heat build-up. These pigments reduce the infrared radiation and heat build up in the profile. This layer can be a solid color or a design such as a wood grain.
  2. Second Layer: The middle layer is the upper transparent PMMA layer which protects the colors and designs against fading caused by UV radiation or other weathering effects.
  3. Third/Top Layer: The transparent upper layer is made of polymethylmethacrylate (PMMA) and absorbs more than 95% of UV-radiation. This means your chosen color or design below will be protected from fading and weather effects.



RENOLIT EXOFOL FX films are high-performance films that set new standards on color fastness and protection globally. They are a weather and ultraviolet resistant, dirt repellent, multi-layer film. Cleaning, and even graffiti removal is a breeze due to the film’s low surface tension, and the high-performance material retains its gloss throughout its service life. The overall film thickness is 170 – 180 μm, and weather exposure tests have confirmed that RENOLIT EXOFOL FX  far exceeds the requirements of the RAL quality standards (according to RAL-GZ 716 and EN 513-2).

Because of Solar Shield Technology, RENOLIT EXOFOL FX protects profiles against excessive heat build-up. As a result, RENOLIT offers a guarantee of up to 22.5 years for this product – up to 15 years as a warranty on the film and another 7.5 years via RENOLIT‘s proprietary renovation service depending on location and availability.


  1. First/Base Layer: The base layer is a solid color PMMA with infrared-reflecting pigments to reduce heat build-up of the profile or boards.
  2. Second Layer: Next is a pigmented polymethylmethacrylate (PMMA) base film with Solar Shield Technology which protect the profile against excessive heat build-up. These pigments reduce the infrared radiation and heat build up in the profile.
  3. Third Layer: Then the ink layer is applied.
  4. Fourth Layer: Next is a transparent PMMA film.
  5. Fifth/Top Layer: Finally, the top layer is polyvinylidene fluoride film (PVDF).

Patented Features

  • Optimized color pigments mean extended color stability
  • Longer UV protection in the PMMA film protects the entire system, allowing for sensitive white tones to remain unfaded
  • The primer layer under the PVC base film ensures the best adhesion
  • A more stable copolymer technology replaces migrating plasticizer


RENOLIT EXOFOL MX has a highly appealing aesthetic, with very little maintenance needed. Just ones cleaning annually with detergent and water, using a sponge or a soft brush, is sufficient to maintain the handsome look for the entire service life of the film.


  • Extreme durability that withstands the harshest conditions (-40 to 290 F)
  • Excellent resistance to cracking and chalking
  • Lead free
  • Little maintenance needed
  • Easy to clean substances off
  • Surpasses AAMA 2605 testing standards
Design Options

All design options are customized based on project

3.1  3.0 3.2 3.3


Polymer window wall/storefront to aluminum door connection


Weep holes

Weep holes: a critical window design feature. Water flows with gravity, downhill, which is the principle used to drain water away from a wood or aluminum window instead of into your home. That is why most wood windows have a sill that slopes away from the window. During a rain storm water hits the outside of the glass, dropping to the sill and draining away from the window.

The reason you need weep holes is because the sill is the exact same-shaped extrusion as the jambs, which means that the window tracks that hold the sash when in the vertical position of the frame will collect and hold water when functioning as the sill in the bottom horizontal position of the frame. Weep holes allow this water to drain.

adobe_pdf Weep holes

Slab Edge Cover
  • Model: AEL 42° Architectural decorative louver
  • Material: Extruded Aluminum
  • Finish: Clear Anodized, Kynar 50%, Kynar 70%
  • Shapes: ONLY Rectangular

adobe_pdf Louver Specifications

Hardware options


INTUS windows and doors use sturdy, secure, and timeless handles in a variety of colors. Our handles coordinate with our window profiles and elements, and offer a high level of security. They use a multi-point locking system for an added layer of security. The locking points interact with a manually operated handle to bring window sashes into a turn or a tilt position.




Handle Colors Available

Handle-white-1 (deleted 5f83060e2828a3374c85504f49fd216e) Handle-silver-2 (deleted 968e8920d834ba6fa40903335b96dc6c) Handle-titanium-3 (deleted 6b50dabc8a3ca702c9cc614c2b051531)


Handle Operation

  • Handle in horizontal position = Turn position
  • Handle in upward vertical position and turned counter-clockwise = Locking position
  • Handle returned to vertical position after step 2 = Locked position


Handle in horizontal position = Turn position


Handle in vertical position and turned counter-clockwise = Tilt position


Handle in vertical position and turned clockwise = Locked position


adobe_pdf FSV Window Lock
adobe_pdf Window Hardware Adjustment and Maintenance Instructions



  • 4″ limiter without friction
  • 4″ limiter with friction
  • 70 and 90 degree limiters with friction

Limier01 Limiter02



Fixed Screens

  • Stable and robust frame profile keeps the net tightly stretched through the entire area of the frame
  • Installation of window screen does not damage the window or door
  • Screen net colors are available in grey and black


adobe_pdf Fixed Window Screens


INTUS offers double and triple glazed windows with customized glass for your building’s location, orientation, and situation for optimal performance.

  • Annealed Glass: has not been heat-strengthened or tempered aka float glass
  • Tempered Glass: shatters into small fragments instead of sharp shards when broken, adding a layer of security in case the window is broken
  • Laminated Glass:  blocks more of the sun’s harmful UV rays and keeps the glass in place if it is shattered, protecting the people and contents inside the building
  • Low-E Glass: reduces heat gain or loss by reflecting long-wave infrared energy (heat)
  • Obscure Insulating Glass: obscures the view for more privacy, while letting the light shine through. It is available in a variety of textured surfaces.
  • Enamel Glass: has a ceramic paint on the glass surface with resistance to environmental conditions and safety glass properties



Float glass (also called “flat” glass) that has not been heat-strengthened or tempered is “annealed glass.” Annealing float glass is the process of controlled cooling to prevent residual stress in the glass and is an inherent operation of the float glass manufacturing process. Annealed glass can be cut, machined, drilled, edged and polished.



Fully tempered glass is approximately four times stronger than annealed glass of the same thickness and configuration. Residual surface compression must be over 10,000 PSI for 6 mm glass, according to ASTM C 1048.

When broken, it will break into many relatively small fragments, which are less likely to cause serious injury. The typical process to produce tempered glass involves heating the glass to over 1,000 °F, then rapidly cooling to lock the glass surfaces in a state of compression and the core in a state of tension, as shown in the diagram.

Tempered glass is often referred to as “safety glass,” because it meets the requirements of the various code organizations. This type of glass is intended for general glazing, and safety glazing such

as sliding doors, storm doors, building entrances, bath and shower enclosures, interior partitions, and other uses requiring superior strength and safety properties.

Tempered glass cannot be cut or drilled after tempering, and any alterations, such as edge grinding, sand blasting or acid etching, can cause premature failure.



Laminated glass has two or more lites that are permanently bonded by heat and pressure with one or more plastic interlayers of polyvinyl butyral (PVB). Both the glass and the interlayers can be supplied in a variety of colors and thicknesses to provide the desired appearance.



Relatively neutral in appearance, low-E coatings reduce heat gain or loss by reflecting long-wave infrared energy (heat) and, therefore, decrease the U-value and improve energy efficiency.

Current sputter-coated low-E coatings are multilayered, complex designs engineered to provide high visible light transmission, low visible light reflection and reduce heat transfer.



Low-E reduces the amount of direct solar energy from entering the building. Before the development of low-E coatings, architects relied on tinted (heat absorbing glass) or reflective coatings to reduce solar energy transmission. Tinted glass almost always requires heat-treatment to reduce potential thermal stress and breakage and tends to reradiate the absorbed heat.

Reflective coatings are effective at reducing heat gain but also reduce visible light transmission. Low-E coatings reflect solar energy away from the glazing, often without requiring heat-treatment, and generally have lower visible light reflection.



Enamel glass is produced by applying a ceramic paint onto its surface, and then dried and tempered. It is available in an array of colors to create eclectic and modern looks. It has a high resistance to environmental exposure, thermal stress, and mechanical damage, with the properties of safety glass.


Tech Specs

Architectural Details



Installation Instructions




Product Literature

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