VMZ single lock standing seam

VMZ Interlocking panel

What is the VMZ Interlocking Panel technique?
 

The VMZ Interlocking Panel system is a wall cladding system installed with a ventilated air space. It involves laying interlocking panels on metal framework fixed to the supporting structure (masonry or metal structure). The panels are simply connected by the use of an interlocking groove giving the elegant appearance of a recessed joint. They are fixed onto the framework using the clips provided which are concealed in the inside edge of the groove.

 

Surface aspects: QUARTZ-ZINC / ANTHRA-ZINC / PIGMENTO

 
Thickness 1 mm
Centre-to-centre distances From 200 mm to 300 mm
Weight* Kg/m² 11.18 kg/m² - 9.85 kg/m²
Length 0.5 to 4 m (horizontal) - to 3 m (vertical)
Joint width From 5 mm to 18 mm
Side width 24 mm

(*) Weight of the system /sq. m excluding framework.

Note: A continuous unobstructed ventilation cavity is always required directly behind the zinc

 

 
Technicité Horizontal and vertical cladding,
Discrete Aesthetics of open joint,
Simplicité de pose Simple connection by an interlocking groove making it easy to install.
All flat facades.
On vertical walls (slope 90°) and soffits.
Can be used for both exterior and interior applications.

 

Framework

The substructure (not supplied) can be either galvanized steel or aluminium rail.
Rail spacing: maximum of 600 mm apart.

 

Load bearing structure

It can consist of:
  • Masonry or reinforced concrete wall,
  • Main steel framing (Please consult VMZINC).

The panels can be laid vertically or horizontally. The choice of direction implies different aesthetics and technical solutions for the main flashings.
This dimension must be determined before establishing the layout and must be indicated when the panels are ordered.
Panels are fixed directly on metal transverse purlins spaced a maximum of 600 mm apart.
A continuous 20 mm (minimum) ventilated air gap is left clear behind the zinc panels on the entire facade.

 

Installing Horizontal Panels:
The panels are laid from top to bottom in horizontal rows, with the groove less side up.

  • Fitting the upper part of the facade:

 

 
1 First fix a strip for folding down onto the framework, then check that the apron will overlap the interlocking panels by 30mm.
2 Fix the first row of panels at the top of the facade using 4 screws located in the central zone fixed area, cover the screws with the folded strip, then fix the lower part (edge with grove).
3 When the first row of panels is fixed onto the support, lock the second row down into the groove of the upper panels. Each clip is slid to the bottom of the groove of the upper panel then fixed onto the secondary framework.
 

 

  • Vertical transverse joint:

An element of the framework must be aligned with each vertical joint between the panels. The framework must ensure a minimum support of 100 mm. A flat inverted slider with two 15 mm folds is first fixed onto the framework to ensure that the transverse joints are watertight.
The interlocking panels are laid over it.
 
  • Fitting the bottom part of the facade:

 

 

First lay a folded flashing strip on a galvanized steel corner piece, then the last row of panels.

 

Installing Vertical Panels:
Vertical panels are laid from bottom to top. The interlocking direction must be defined by the layout. Laying usually starts at the corner of the building.

 
1 The groove less side of the panel is fixed first, opposite to the laying direction. Fix the upper section of the panel to the framework, using 4 screws located at the top of the panel.
2 Clips are fitted to the longitudinal joint between two adjoining panels as for horizontal panels.
 

 

  • Transverse joint:

Two types of transverse joints are possible:

 

  • Horizontal joint: after laying the lower panels, an apron is fixed on the installed framework to overlap them by 30 mm. The upper panels are then laid.
  • Interlocking joint: in order to obtain an invisible transverse joint, carefully cut back the grooves of the overlapping panel with shears, to ensure a 50 mm overlap of the panels.

For more information, please contact VMZINC.


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