Doors

SAPA 2086

Door in panel wall

High insulated door for sandwich panel wall

Characteristics

Our insulated door system has a profile depth of 86 mm and uses 42 mm wide glass fibre reinforced polyamide strips. The frame profile is adapted for installation in light wall structures consisting of sheet metal and insulation material. The inside is complemented with a casing made of an aluminium profile specially developed for different wall thicknesses. Door leaf profiles are available for all types of locks.

2086 high-isolated doors can be made in version Standard, SX, Plus or Extreme depending on the desired energy and weather performance levels.

This product is made of Hydro CIRCAL® recycled aluminum. Read more here

This product is made of Hydro REDUXA® - Aluminum produced from renewable energy. Read more here

Documentation
86 panelwall EN 2022

Product benefits

DIVERSITY OF APPLICATIONS

  • Versions. Single-leaf and double-leaf.
  • Break-out protection. For outward opening single-leaf door.
  • Personal safety. Available with anti-finger trap edge.

HIGH PERFORMANCE

  • The doors can be made in version 2086, SX, Plus or Extreme depending on the desired enegery and weather performance levels.

LARGE SIZES

  • Wall thickness. Interior cover profile is available for wall thickness: 100, 120, 150, 160, 175, 200, 230 and 240.

More information

Specifications & EPD

Clear dimension

Doors and entries should be designed with enough space (clear dimension) for person traffic and to facilitate passage in a wheel chair. Applicable standards and requirements should be taken into account.

Rebate door

A = Clear dimension
B = Frame outside dimension
C = Wall opening
D with universal hinge= 151 mm
D with lap butt hinge= 148 mm

 

Anti-finger trap edge with a rubber strip

A = Clear dimension
B = Frame outside dimension
C = Wall openeing

 

Rebate door with hidden hinges

A = Clear opening
B = Frame outside dimension
C = Wall opening

Threshold alternatives

Door openings should be designed without level differences from inside to outside. Sometimes a threshold is not required because of, for example, moisture or non prevailing weather conditions. When a threshold is installed, it should be as low as possible to facilitate passage. Applicable standards and requirements should be taken into account.

Door with rebate profile

Door with uninsulated threshold and stainless steel protection

Door with rebate profile, uninsulated threshold and stainless steel protection.

Door with strip seal

Anti-finger trap protection

In order to reduce the risk of injury due to squeezing, we have developed a solution based on a socalled anti-finger trap edge. Applicable standards and requirements should be taken into account.

Door system 2086 with anti-finger trap edge with EPDM rubber strips.

Glazing

Unprotected glazed surfaces that can be reached by persons shall be designed so as to limit the risk of injury. Such glazed surfaces shall be dimensioned so as to withstand the dynamic influence of a person. Applicable standards and requirements should be taken into account.

Functional dimensions
Glass or infill panels thickness 20-64 mm



The illustration shows the different functional dimensions commonly used by the window industry and established by the MTK. The gaskets are made of EPDM rubber and are available in several versions.

Fittings

Our door system can be easily equipped with the most common fittings available on the market. For optimum functionality it is important that the fittings work together.

Our standard fittings are shown below.

Hinges, examples
Bladgångjärn treblad
Universal hinge


Lap butt hinge


Hidden hinge

Infill panels

Certain parts of the elements can or must be filled with infill panels. It is important to consider the backing and the surface layer of the panels.

The example shows infill panel F2

Infill panel F1
1,5 mm aluminium sheet
60 mm insulation
1,5 mm aluminium sheet
U-value at middle point down to 0,54 W/m²K.
For areas with little mechanical impact, such as high-level infill panels.

Infill panel F2
1,5 mm aluminium sheet
4,8 mm board
50 mm insulation
4,8 mm board
1,5 mm aluminium sheet
U-value at middle point down to 0,61 W/m²K.
For areas with moderate mechanical impact, such as low-level infill panels.

Infill panel F3
1,5 mm aluminium sheet
50 mm insulation
10 mm chip board
1,5 mm aluminium sheet
U-value at middle point down to 0,61 W/m²K.
For areas with high mechanical impact from outside.

Break-out protection

Outward opening single-leaf door
In order to reduce the risk of burglary through doors, we have developed a rebate profile with integrated break-out protection. The break-out protection profile is easy to replace if damage occurs. Clear anodising is recommended for optimum appearance. Only available for outward opening singleleaf doors.

Elevations And Details

A2086-1040 2122246
Save this elevation as: dwg / dxf
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A2086-1041 21222467
Save this elevation as: dwg / dxf
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Fixing Principles

Fixing principles

Door elements must be fixed to a stable and suitable wall structure. The choice of fixing method depends on the wall type. The number and location of fixing points depends on the size of the element.

Examples:

Frame attachment with
adjustable frame bushing

Projects using doors SAPA 2086

Lindesberg Hälsocenter

Sweden

Architect: White Architects
Metal builder: Glaslindberg Facade
Products: Facade SAPA: 4150, Roof: SAPA 5050, Doors SAPA 2086 & SAPA 2050
Photo: Åke E:son Lindman &White 

Tramway, Lund

Sweden

Developer: Region Skåne / Lunds Kommun
Construction contractor: NCC Building Sweden
Metal builder: Alab Aluman AB
SAPA solutions: Facade 4150, Doorr 2086, Window 1086

Silberauto, Klaipeda

Lithuania

Facility: Silberauto
Place: Klaipeda, Lithuania
Architect: A405 Architects
Manufacturer: GS Industry UAB
Installer: Eugvilsta UAB

Facades: Sapa 4150
Doors: Sapa 2086 and Sapa 2074
Windows: Sapa 1074

Photography: Evaldas Lasys

Villa, Finland