In a continuous drive to improve Occupational Safety and Health within the work at height industry the British Standards Institution (BSI) develops the standards that improve the safety and quality of products, services and systems such as these.
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Graham Willmott – the Kee Safety Group Risk Management and Standards Director and Anne Hayes - the Director of Sector Standards at BSI, discuss with the Operations Engineer magazine some of the products that should be installed and the standards with which they must comply to protect people at work.
Falls from height remain, statistically, amongst the largest cause of occupational fatalities within the workplace. According to the Health and Safety Executive (HSE) in 2018-19, in the last five years falls from height have accounted for 26% of all fatal accident injuries (an average of 37 fatal injuries per year). 60% of deaths when working at height involve falls from ladders, scaffolds, working platforms and roof edges, and through fragile roofs.
An important way to reduce these fatalities is to ensure that safety systems that are used to protect against falls from height, are inspected properly, are in perfect working condition and are recorded properly.
There are many safety systems that are designed to protect people working at height. These include:
Counterweighted Guardrail Systems were used where workers carried out flat roof refurbishments / repairs at heights as defined by the Work at Height Regulations 2005. They feature a lifting base foot at the bottom of each vertical part of the guardrail which are individually fitted with a cantilever tube / counterweight to secure them in place.
These products did not penetrate the roof membrane and it soon became apparent they could be used as a Permanent Counterweighted Guardrail System (PCGS), but there wasn’t a specific standard for such products.
In a continuous drive to improve Occupational Safety and Health within the work at height industry the British Standards Institution (BSI) develops the standards that improve the safety and quality of products, services and systems such as these.
BSI publishes over 2,700 standards annually, underpinned by a collaborative and consensus-based approach. Committees are made-up of stakeholders who fairly represent the range of interests affected by the standard, they include industry experts, government bodies, trade associations, businesses of all sizes and consumers. The committee comes together to develop the consensus standards that reflects best practice
The standard BS 13700, released in Spring 2021 is a long overdue specific standard for PCGS.
BS 13700 brings clarity and consistency for the manufacturer, designer, duty holder (owner of the organisation) and recertification technician (the inspector), ensuring these safety critical edge protection systems are designed, installed, inspected, and maintained to the highest standard.
Two of the most important features of the new standard include:
Because wind speeds in the South of the UK are lower than those experienced in the North, PCGSs must include design flexibility to accommodate local wind speeds. For instance, additional counterweights can be added, longer cantilever tubes may be required, bay centres (distance between vertical supports) may have to be reduced and so on.
As the global leader within our industry we have embraced BS 13700 and created an examination scheme and ability to produce wind speed calculations as part of the annual inspection. We inspect all systems and their Technical File. Any deficiencies are categorised in a standard format (pass, conditional pass, conditional fail or fail), with full explanation, photographic evidence and any necessary solutions and time frame recommendations.
Following the ‘best practice’ requirements of BS 7883:2019 every installation should have a ‘System Technical File’. This evidence-based document is produced by the System Designer who passes it on to the duty holder and should be placed as part of the health and safety file required under the Construction (Design and Management) Regulations 2015.
The duty holder must then retain the file and ensure it is available to anyone who may need it for as long as it is relevant – normally the lifetime of the building – to enable them to comply with health and safety requirements during any subsequent work/inspection. The System Technical File should include the system design and layout, design calculations, and wind speed calculations permitting compatibility, safety, and operational suitability to be assessed and verified.
Should any of this information be absent at the time of an inspection, companies like Kee Safety can assist duty holders with completing a full system review of their fall protection system and, where applicable, undertaking supplementary inspections to establish how the product was structurally anchored into the base material.
Our system provides the duty holder and recertification technician with clarity and consistency of approach and interpretation of the specific product standards and their complexities. Duty holders receive a full inspection visit report, including a summary of their building’s fall protection equipment condition. Reports are submitted in an electronic format and for multiple site inspections these can be hosted on our online portal, allowing access to all building/site reports in one safe place.”
Alternative personal fall protection safety systems must also be installed and maintained in order to reduce fatalities; such systems include
The latest revision of BS 7883, released in November 2019, constitutes a revised, and comprehensive best practice Standard for those designing, installing, maintaining, inspecting and certifying anchor devices and systems.
Those inspecting such systems must be aware of what components should be utilised, are in place, and if they are potentially missing, installed incorrectly or assembled with incompatible components.
We have invested in the latest field-based technology which is fully aligned with the new standards requirements and the appropriate examination scheme of a building’s fall protection equipment and supplementary requirements
The latest guidance recommends that a record of all hidden elements and the materials obscuring them is detailed within the System Technical File, including evidential and sequential photographs taken during installation. Many original installations may not have this critical verification documentation, and a full system review and supplementary engineering inspection revealing the hidden elements may be required.
“All British Standards are subject to review at least every five years. BSI ensures that technical committees take responsibility for each British Standard and undertake such reviews and consider any matters of concern brought to its notice at any other time.
Wilmott highlights a downwards trend in the statistics for fatalities at work as well as those resulting from falls from height. He attributes this to more effective legislation and standards as well as greater awareness, especially as a successful prosecution is no longer reliant on an accident occurring, but the actual risk of harm potentially occurring.
The BS 13700 standard was written specifically for manufactured permanent counterweighted guardrail systems that are not fixed directly to the roof’s structure. The standard provides clear best practice guidance for those designing, testing, maintaining, and inspecting these types of systems.
Kee Safety uses innovative Wind Speed Calculator technology, enabling us to help you with a site specific wind speed calculation, ensuring that your Kee Guard system complies with BS 13700.