Email address:
Password:
I've forgotten my password.

Stages & Structures: SR1008 [ 10m x 8m Roof System ]

At a glance

Options: - 4m x 6m Cowshed (Tech Wing) on side of stage
- PA and/or Screen Wings (2m, 3m, 4m or 5m width)
Structure: HD34 Truss System
Grid Size: 10m wide x 8m deep (33’ x 26’)
Towers:  HD34 Towers GS
Main Grid:  HD34 & FD32
Grid Height:  7.3m max (24’)

Our 10m x 8m (33' x 26') Roof is a tower based structure with a pitched roof for optimum strength. Constructed largely from standard Eurotruss HD34 and FD32 truss, this large stage has a platform area of 10m by 8m which is constructed from Litedeck at a height of 3', 4', 5' or 6'. The stage has a central apex height of 8.6m, with a 7.1m height to grid. Constructed at ground level the roof is then raised using CM Lodestar 1 tonne motors (three phase power required), the structure can support up to 1.25 tonnes of equipment (UDL) over the stage when used outdoors  and up to 3.5 tonnes of equipment (UDL) over the stage when used indoors, with extra capacity available when used in conjunction with wings.

The roof is covered in PVC, with a blackout lining. The back and sides are covered with a semi- transparent black mesh material, with solid PVC rear and side walls available as an optional extra. The standard stage base layout is a 33’ (10m) wide by 28’ (8m) deep Litedeck platform, at 4’ (1.2m) high, with handrails fitted to the rear and sides of the platform and with various ramp and step options for access.

PA wings are also available for this structure in widths of either 2m, 3m, 4m or 5m. Each wing can support a single point load (such as a hang of line array PA) of up to 1 tonne per side, or it can be used to support an LED video screen.

The structure and all its components are all fully rated, tested and certified, and the construction is signed off by a Eurotruss trained technician prior to handover. Full method statements and risk assessments are adhered to at all times, and guidance on Temporary Demountable Structures, published by the Institute of Structural Engineers (ISE), is followed at all times.

An anemometer (a device used to measure the speed of the wind) is fitted to the structure when used outdoors to continuously monitor wind speed, with procedures in place to deal with inclement weather in accordance with risk assessments, manufacturer data and ISE guidance.