Advantages of Peer Simplicitee® Exposed Grid
Peer Industries Simplicitee® exposed ceiling grid system has been designed as a balanced system, which can be used in both seismic and non-seismic regions.
The Peer Industries Simplicitee® main runner and cross runner sections provide the ceiling suspension system with a balanced pivot point, which enables the exposed faces to hang in a true horizontal plain.
Specially designed locking tags on the ends of both main runners and cross runners provide positive joining connections at the butt joints.
These joints leave a smooth flat surface for the ceiling tile.
Safety Properties
Prior to locking the cross runners into the main runners, the unique locking tags on the cross runners have a built in safety feature which prevents accidental disengagement during installation that would cause the cross runners to fall.
Locking tags on both the main runners and cross runners lock positively into each other, with little force being required to achieve full lock.
Once engaged these components are securely locked into each other providing a robust frame work for a variety of different ceiling tiles and configurations.
Suspension points and clips can be loaded to take a minimum safe load as per clip capacity table EGS-01.
All components have a protective coating which enables them to safely pass a 72 hour salt spray test.
Simplicity and ease of use and installation
The name Simplicitee® represents a group of exposed grid ceiling components that are engineered to work as a system.
Both the main runner and cross runner have been pre-punched to allow for variable spanning and spacing options.
The ability to dismantle small sections of the grid by depressing the locking tags on the Cross Runner with a screw driver, allows for sections damaged on-site to be easily replaced.
Peer Industries can custom radius both plain and shadow aluminium wall angle down to a minimum radius of 300mm for curved walls and columns.
For seismic installation, the unique cross runner and main runner locking tabs provide enough strength on their own to reduce the amount of costly additional bracing required.
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