Description
Corrugated Roof Anchor
Model: BTS160
Features
- Stainless steel threaded anchor bolt
- Rotating eye
- 316 grade SS
- 16 mm thread
- Base designed to fit custom orb metal deck roofing
Material and Construction
- 316 grade stainless steel
- Eye size suitable for all common types of equipment fittings
Applications and Usage
- Single point anchor
- Anchor point rating 21kN, note: engineer may be required to certify structure
- Use in conjunction with an approved full body harness and shock absorbing lanyard, or rope restraint system
Testing and Quality Control
- 100% visual inspection
- Tested and passed 21kN load
- All raw materials conform to relevant safety standards
- ISO 9001 quality control system
- Hardware batch tested to destruction
Information and images courtesy of:
The TLC Skyhook – “Mobile Fall Protection Device” was Designed, Engineered and Manufactured by the team at The Lifting Company in Perth Western Australia. TLC The Lifting Company is an industrial specialist business with a large focus on Height Safety Solutions. The Skyhook was developed as a result of collaboration between customers and The Lifting Company who both recognised a gap in the market for a product such as this.
Falls from height are a major cause of serious work-related injuries and fatalities in Australia. Even falls from a seemingly low height can cause severe injuries. In many instances other protection solutions such EWP, Scissor Lifts and Scaffolding etc is impractical and often not cost effective and immobile.
With an underlying objective to minimise the number of working at heights injuries The TLC Skyhook, was developed with multiple applications in mind, to be easily transportable, quick to deploy and allow easy, low restriction, working at heights Fall Protection in the field. In simple terms the TLC Skyhook is a device to which up to two Self Retracting Inertia Reels are attached that allows 2 operators to perform Safe Working at Heights Tasks whilst connected to a Fall Arrest System in order to prevent injuries sustained from falling.