 |
|
Overhanging Verge - Twin Skin
|
3D Interactive PDF Version
Available
Click Diagram To View!
(Requires Free Acrobat
Reader 7.0.07 or better)
Key Features
- It is assumed that this will result in a lower thermal bridge, and be more straight
forward to air seal, than a design where the wall runs straight up to the roof liner,
around all the purlins.
- Thermal bridging can be minimised by ensuring the liner and outer sheets never
cut across the insulation layer.
- Cleader angles are required to provide support and air sealing between purlins.
- Joints must be structural and not interfere with seals. Fasteners, securing
cleaders, must not interfere with liner seals.
- Many combinations of cladding and materials are possible, which would still
achieve similar thermal bridge and air seal performance.
|
|
Built-Up Systems Details
Ridge - Twin Skin
Corner - Twin Skin
Window/Door Jamb - Twin Skin
Window/Door Head - Twin Skin
Window Sill - Twin Skin
Eaves - Twin Skin
Sill - Twin Skin
Verge - Twin Skin
Parapet Top - Twin Skin
Parapet Verge - Twin Skin
Parapet Gutter - Twin Skin
Overhanging Eaves - Twin Skin
Overhanging Eaves - Twin Skin (No Liner Bridge)
Overhanging Verge - Twin Skin
Hip - Twin Skin
Hip Valley - Twin Skin
Valley Gutter - Twin Skin
Composite Panel Systems Details
Ridge - Composite Panels
Corner - Composite Panels
Window/Door Jamb - Composite Panels
Window/Door Head - Composite Panels
Window Sill - Composite Panels
Eaves - Composite Panels
Sill - Composite Panels
Verge - Composite Panels
Parapet Top - Composite Panels
Parapet Verge - Composite Panels
Parapet Gutter - Composite Panels
Overhanging Eaves - Composite Panels
Overhanging Verge - Composite Panels
Hip - Composite Panels
Hip Valley - Composite Panels
Valley Gutter - Composite Panels
|
