Doors

SAPA 2050

Sliding Door, manual

Non-insulated entrances manual sliding doors

Characteristics

Our manual 2050 sliding doors are based on a stable solution. The system is based on uninsulated aluminium profiles with a profile depth of 50 mm. The fixed parts can also be made of the 3050 or the 3086 system profiles.

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

Documentation

Product benefits

DIVERSITY OF APPLICATIONS

  • Single-wing and double-wing sliding doors.
  • Locks. The door leaf can be equipped with locks in the front and the back edge.
  • Door leaf weight. Max. 80 kg.

DIVERSITY OF APPLICATIONS

  • Application areas. Stable system suitable for interiors where a greater clear dimension is required for passage.

More information

Fitting Functions

Clear dimension

When calculating the clear dimension we have taken into account the risk for squeeze injuries at the door leaf back edge.

Single-wing door

Max. clear dimension = (Frame outside dimension - 344) / 2
Min. frame outside dimension = 2 x Clear dimension + 344

Double-wing door

Max. clear dimension = (Frame outside dimension - 557) / 2
Min. frame outside dimension = 2 x Clear dimension + 557

Glazing

Unprotected glazed surfaces which are so located that they 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 thickness 5-33 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.

Glazing
Glass thickness 5-33 mm


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. If the infill panels are exposed to heavy impacts or mechanical loads, the backing should be made of durable board and the surface layer should be made of stainless or glass enamelled steel sheet.

Infill panel F2
1.5 mm Aluminium sheet
3.2 mm Board
25 mm Insulation
3.2 mm Board
1.5 mm Aluminium sheet


Infill panel F3
1.5 mm Aluminium sheet
12 mm Chipboard
20 mm Insulation
1.5 mm Aluminium sheet


Infill panel F4
1.5 mm Aluminium sheet
20 mm Insulation
10 mm Sapa boarding

Threshold alternatives


Sliding door without threshold


Sliding door with embedded threshold

Elevations And Details

A2050-1016 12344142434456
Save this elevation as: dwg / dxf
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A2050-1017 12341424467
Save this elevation as: dwg / dxf
Click on number to view the details

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:

Fixing of frame with
twist anchor         

Fixing of frame with
bolt and welded plate        

Fixing of frame with
adjustable frame bushing
    

Projects using doors SAPA 2050

Angered Arena, Gothenburg

Building and location: New swimming and ice complex in Angered, Gothenburg, Sweden
Construction year: 2013
Architect: Erséus Arkitekter AB
Producer: Alpro Aluminiumfasader AB

Doors: Sapa 2074 and Sapa 2050
Interior sections: Sapa Facade 4150
Fire protection: Sapa Fire Resistant Doors 2074 EI30 and 2074 EI60, Sapa Fire Resistant Panels 3074 EI30
Surface finish: Natural anodised.
Miscellaneous: The perforated cassettes on the building exterior are made of 3 mm aluminium sheet in five colours:
NCS 1010-G, NCS 1510-G, NCS 2010-G,
NCS 2010-B90G and NCS 3010-B90G.
The cassettes are suspended on a system of aluminium L- och Uprofiles designed by Alpro Aluminiumfasader.

Photographer: Hans Bonnevier

Science & Technology Center Santaka, Kaunas

Building: Science & Technology Center Santaka
Location: Kaunas, Lithuania
Construction year: 2011-2013
Architect: G. Janulytė-Bernotienė Studio
Producers: Velansta UAB and Firelita UAB

Facades: Sapa 4150
Windows: Sapa 1074
Doors: Sapa 2074, 2074 fire resistant, 2050
Surface finish: RAL 9016, 7024
Glass: 6 Sun Guard HSN 62/34 – 18 Arg – 33.1 Laminated

Photographer: Hans Bonnevier

Kaisa library building, Helsinki

Building and location: Kaisa library building, Helsinki, Finland
Construction year: 2012
Architect: Anttinen Oiva Arkkitehdit Oy, design team leader Vesa Oiva
Producer: Normek Oy
Developer: Helsinki University

Windows: 1074, special frames 74936 and frame profile 300x80, prof 370060. In total approximately 600 fixed windows.
Doors: Sapa 2050, 2074
Surface finish, powder coating:
External: RAL 9016 matte
Internal: RAL 9016 matte

Photography: Voitto Niemelä

Plassen Cultural Centre, Molde

Facility: Plassen Cultural Centre
Place: Molde, Norway
Construction year: 2011-2012
Architect: 3XN, Copenhagen
Fabricator: H-Produkter AS
Proprietor: Molde Kommune and others

Facades: Sapa 4150 with Add decorative caps
Glazed elements: Sapa 3074, fire rating A60
Doors: Sapa 2050, 2074
Windows: Sapa 1074
Glazed roof: Sapa 5050
Surface finish: Clear anodised
Glass: Suncool Brilliant 70/35 S1 Superenergy

Photography: Hans Bonnevier

AB Strömslunds Snickerifabrik, Skillingaryd

Objekt och ort: AB Strömslunds Snickerifabrik, Skillingaryd, Sweden
Byggår: 2012-2013
Arkitekt: Happy Architects / P-O Bonnevier Arkitektkontor AB
Producent: SKALAB
Montage: Ryds Glas Jönköping
Entreprenör: Pålssons Bygg AB
Ägare: Fastighets AB Strömslunds Snickerifabrik

Fasader: Sapa 4150
Dörrar: Sapa 2074, Sapa 2050
Ytbehandling: Powder Coating, NCS-S 7000-N, NCS-S 1000-N

Photography: Hans Bonnevier

Översättning saknas!

Ranheim School, Trondheim

Facility: Ranheim School
Place: Trondheim, Norway
Construction year: 2010
Architect: Lusparken Architects AS
Fabricator: Ratdal AS

Facades: Sapa 4150, 4150 EI30
Doors: Sapa 2050, 2074, 2074 EI30
Windows: Sapa 1074
Surface finish: Powder coating RAL 7016

Photography: Hans Bonnevier