The hinged cold room door is a widely used model. It consists of a door opening lever allowing it to be opened from the inside. These models are used in cold air rooms of facilities such as hotels and restaurants, which do not require a large entrance.
Ease of AssemblyAs the door wing is mounted on the panel, its assembly is very easy.
Fire ResistanceOur door products, as is the case with all our other products, are produced under our “Fire Resistance” certificate.
Door Wing No wooden materials have been used and 40(+/- 2) density polyurethane has been injected between the two sheets. Door Thickness 68 mm in normal cold warehouses, 92 mm in freezer warehouses. Lock Imported, can be opened from the inside when locked and its anti-panic lever is phosphorous. Hinge Rising and adjustable. Surface Sheet In the standard production, both sides are PVC sheets. Optionally, they can be polyester coated sheet and CrNi. Door Frame For industrial panel rooms, one wall of the room is manufactured as a special door frame. As the door wing is mounted on this panel, there is no assembly related issues. For rooms with panel, special PVC outer frame and aluminum inner frame is used. As the wing is mounted on the frame, application is very easy. Thermal Bridge The special rubber gasket surrounding the door prevents leakage. In freezer warehouse doors, there is resistance against freezing and a transformer is not required as the resistance is strengthened with diodes. Dimension Can be produced with up to 100X200 cm net opening.
Sheet Surface Yield Strength (fct) min. 220N/mm² Panel Tensile Strength min. 0,018 Mpa Transverse Tensile Modulus at High Temperatures min. 0,04 MPa Core Material Shear Strength (fcv) min. 0,11 Mpa Core Material Shear Modulus (G) min. 2 MPa Core Material Compressive Strength (σ10) min. 0,09 Mpa Moment of Flexion Capacity and Rigidity - Straight (Mu) min. 2,3 kNm/m Moment of Flexion Capacity and Rigidity - Inverted (Mu) min. 2 kNm/m Torsional Stress - Straight (σw) 115 MPa Torsional Stress - Inverted (σw) 100 MPa Moment of Flexion Capacity on a Central Bracket - Straight 2,95 kNm/m Moment of Flexion Capacity on a Central Bracket - Inverted 3 kNm/m Torsional Stress Capacity on a Central Bracket - Straight 133 MPa Torsional Stress Capacity on a Central Bracket - Inverted 118 MPa PUR Thermal Conductivity Value (ʎ) max. 0,022 W/mK Dimensional Stability Level DS(TH) 11 Fire Classification (TS-EN 13501-1) C-s2,d0
Thickness ± %4 Length ± 10 mm Width ± 2 mm Deviation from Rectangularity ± 5 mm