MSA Safety has announced a new Latchways® RIBA CPD programme, available to architects, principal designers and principal contractors. MSA’s new CPD will help them keep up-to-date and understand the latest regulations and requirements when it comes to specifying fall protection systems. Architects and principal designers play a fundamental role when
Any work at height carries risk. Preventing accidents from falls relies on all stakeholders using an informed, joined-up approach to practices and systems. Specifiers, contractors, system installers and end-users all play a part in risk mitigation. James Sainsbury, Fall Protection Sales leader for MSA Safety, explains why a holistic approach
Considering height safety system design from the very outset of a building project is vital to improving aesthetics, usability and most importantly, minimising risk, says Stuart Pierpoint, UK Sales Manager for HCL Safety. HCL Safety specialises in safety at height system design, installation, inspection, maintenance, fall protection training and product
Make no mistake, climbing can be dangerous and, according to the Health and Safety Executive, falling from height remains one of the leading causes of work-related injuries and death. That’s why meeting the latest standards that ensure the safety of workers at height is so important. As one of the
BDC 319 : Aug 2024
MSA Safety has announced a new Latchways® RIBA CPD programme, available to architects, principal designers and principal contractors. MSA’s new CPD will help them keep up-to-date and understand the latest regulations and requirements when it comes to specifying fall protection systems. Architects and principal designers play a fundamental role when it comes to the construction of a new project, they also have a huge role to play when it comes to working at height as it is their vision that strongly influences the rest of the construction process. As per the CDM (Construction, Design and Management) regulations, putting health and safety at the very centre of the building process, from start to finish, can make a monumental difference when it comes to protecting lives. James Sainsbury, MSA Safety’s International Fall Protection Specialist (Architecture and Roofing) comments: “Having a real understanding of fall protection and designing the most suitable system from specification to building completion and beyond can help save lives. We want to help the industry with its continuous professional development, and this CPD does just that.” Russell Clayton, Associate at MJP Architects Limited, commented: “As an architect, considerations around health and safety are becoming more important than ever. MSA’s CPD really helped me to clearly understand safety requirements and regulations and what I need to think about when it comes to the specification of fall protection equipment.” To sign up to the MSA RIBA CPD: Click here to book online Or call 01380 732700 to book a spot in one of MSA’s upcoming sessions
Any work at height carries risk. Preventing accidents from falls relies on all stakeholders using an informed, joined-up approach to practices and systems. Specifiers, contractors, system installers and end-users all play a part in risk mitigation. James Sainsbury, Fall Protection Sales leader for MSA Safety, explains why a holistic approach to safety is needed, and highlights the potential risks of making ill-informed changes to a defined safety system specification. Gravity is a an ever-present force. It doesn’t offer second chances. And however diligent safety planning and preparations may be, a fall is always a possibility. With workers’ lives at stake, there’s simply no excuse for inadequate fall protection systems and personal safety equipment. Accident prevention: the UK picture Despite the fact that almost all falls from height can be prevented, it’s a sobering reminder that they still remain the leading cause of workplace fatalities. The most recent Health and Safety Executive (HSE) statistics show that in 2017 alone, falls accounted for 28% of all UK fatalities in the workplace. Digging deeper, between 2013/14 and 2017/18, falls from a height accounted for more than a quarter of all fatal injuries to workers. That’s an average of 37 deaths a year. In addition, a staggering 43,000 non-fatal accidents involved falls from height too. Over 60% of deaths when working at height involve falls from ladders, scaffolds, working platforms and roof edges and through fragile roofs. It’s no wonder that HSE research has also revealed 19% of people think their health and safety is at risk at work (2010). Whilst the UK, like much of Europe, is a mature market, with comprehensive regulatory standards for safety systems and practices, there is still much room for improvement. Setting realistic safety system budgets, honouring specifications, understanding the suitability and quality of different equipment, accurately assessing risk and training users to be competent are all on the agenda. Creating the plan: specifiers As the first link in the chain of creating safer working at height, the value of consulting specifier professionals cannot be overstated. The decisions, assessments and recommendations they provide result in the most appropriate fall protection system specification for the building at the outset: one that will maximise protection for users and allow work at height to be carried out more safely and efficiently. A system specification can be defined by architects, consultants or engineers, or by safety system industry professionals, such as professional installers. A thorough specification takes account of both the unique risks posed by the structure and the practical access requirements needed for safe works. It will also mean full compliance with all local and national health and safety and regulatory conditions. Manufacturers, too, can provide consultation and system design, helping to make sure that the very best equipment and system is installed. Controlling the project: contractors One of the most important elements of the specification – at least for contractors – is the independently-calculated budget allowance required to procure and install the recommended system. Unfortunately, specification-switching down-the-line by UK contractors seeking to reduce costs can be problematic. This worrying trend has the potential to put workers’ lives at risk. Simply changing or substituting elements for alternatives that are perceived as less costly can be short sighted and dangerous. Any specified system for working at height, and any attendant cost, is usually proposed for sound safety reasons. High-quality equipment benefits from advanced engineering and rigorous testing, both of which contribute to full compliance and reliable performance. Lesser products may wear, degrade or fail more quickly, requiring premature replacement and increasing Total Cost of Ownership. When equipment is well designed and easy to use, the risks of equipment failure are naturally lower. Putting it all in place: Installers The performance and safety of fall protection equipment depends on correct installation, testing and commissioning. Quality installers have a responsibility to check that only technically-competent professionals install equipment. Leading companies are fully familiar with the leading manufacturer systems, are usually accredited, and will have undergone specialist training to be certain systems are installed exactly in accordance with the manufacturer’s guidelines, including all compliance checks at sign-off. Once equipment is installed, the installer will be responsible for commissioning, testing and ongoing maintenance and, in some cases, arranging user training. Experienced installers are also used to quickly overcoming any unexpected challenges a building may pose – for example, undertaking a retrofit system installation within an older or historic building. They will also spot and highlight any new risks or findings that may impact the effectiveness of the fall protection system. Confident and capable: end users There’s no value in provisioning fall protection equipment if workers are unable, or are unwilling, to use it properly. Whilst overseeing safety, risk assessments and method statements for those that work at height falls to the site manager and/or health and safety officer, all equipment users should be ‘competent persons’. That means expert PPE and or fall equipment system training from a qualified provider. Can users check equipment before use? Do they know when and how to use it correctly? Do they possess the expertise and confidence to make the right decisions at the right time? Can they execute an agreed rescue plan if needed? Safety and accountability: inextricably linked If UK working at height safety statistics are to improve, the sequential chain from specifier through to user requires close scrutiny. At every stage each party has a duty of care to respect the integrity of what should remain an optimal safety system. Specification-switching and making arbitrary changes to carefully chosen solutions may have serious implications. Equally, users deserve to feel confident using systems, and must be supported with quality training and rigorous equipment checks. Most falls from height are preventable. All parties engaged in fall protection should be aligned and accountable to keeping workers safe.
Considering height safety system design from the very outset of a building project is vital to improving aesthetics, usability and most importantly, minimising risk, says Stuart Pierpoint, UK Sales Manager for HCL Safety. HCL Safety specialises in safety at height system design, installation, inspection, maintenance, fall protection training and product servicing. The importance of early consultation with architects When a new building is first conceived, its future upkeep and general maintenance should be closely considered, especially where access to a roof space (or an area where eliminating, reducing or controlling work at height risks is paramount) will likely be required. Ultimately, it’s about identifying the safest approach that remains fit for purpose and in-keeping with building design. Detailed consultation with a building designer at the outset of a project helps fall protection specialists (such as HCL Safety) better understand what the requirements will likely be and why access to the roof space is required. After all, no two systems tend to be the same. This isn’t something that can be ordered online and arrives ready to go out of the box. It’s crucial, for example, to understand the unique nuances of each building, the varying reasons for working at height, and the experience and competence of those that will be using the system. Armed with this knowledge, specialists design and install bespoke safety solutions tailored to each project’s unique requirements. For instance, a school caretaker who requires infrequent access to a roof space will need a significantly different solution to an experienced operative requiring daily access. Working together Work at height safety should never in any way be compromised for aesthetics, but where possible fall protection specialists will work with architects to ensure that the design of the system is in-keeping with the design of the building itself. For instance, if it’s safe to avoid the use of guardrails, then fall protection specialists may look at fall restraint or, as a last resort due to greater risk exposure, fall arrest solutions. If guardrails are unavoidable then they can be made to look more discreet with powder coating and colour alteration. It’s easier to make the solution more discreet the earlier discussions begin. Fixing systems to walls and roofs and non-penetrative options can be explored, but these options can become more limited the later in the process fall protection is considered. Key considerations – the earlier the better It pays to consider height safety at the earliest stage. Installing fall protection equipment retrospectively tends to be more expensive than simply incorporating it into the building’s initial design. It’s worth remembering that – more often than not – at some point in the future, someone is likely to need to gain access to the roof space. It just isn’t worth avoiding or delaying the installation of fall protection equipment. We encourage architects to insist as far as possible that the original quality height safety system and product design specification is upheld throughout the entire building design and construction process. It was, after all, likely specified for a reason first time round. Switching out a quality product specification for what can often be a less-expensive and inferior product can, for instance, lead to unnecessary risk. As a matter of course, we also always prefer to follow a job through to its conclusion, from design and installation through to end-user training, servicing and certification. Using competent and experienced specialists throughout a project provides full traceability of service and helps ensure consistency of quality. For more information, please visit www.hclsafety.com
Make no mistake, climbing can be dangerous and, according to the Health and Safety Executive, falling from height remains one of the leading causes of work-related injuries and death. That’s why meeting the latest standards that ensure the safety of workers at height is so important. As one of the industry’s best-practice leaders, MSA Safety, not only meet these latest standards, but also helped shaped them. The initial version of the updated standards relating to the test of vertical fall arrest systems (EN 353-1:2014) was released in October of 2014 and incorporated many amendments for guided type fall arresters when compared to EN 353-1:2002. MSA continually invests in testing its products and, when carrying out cold conditioning tests on its LadderLatch and TowerLatch systems, noticed an issue with the 2014 version of the standard. Tim Bissett, Technical Manager at MSA Latchways, explains: “When testing our LadderLatch, and TowerLatch systems before introducing them to market, we noticed a slight mistake in the 2014 version of the standard. “The test required the guided type fall arrester to be immersed in water and then subjected to a temperature of -30°C. Unfortunately, this didn’t represent real-life working conditions, so a request for a correction was made with the Standards Authority.” The outcome of this correction is the publication of EN 353-1:2018. It’s perhaps testament to MSA’s own diligent testing regime and decades of experience that it was able to assist in this issue. EN 353-1:2018 has now gone live. The new Personal Protective Equipment Regulations 2016/425 came into force on 21 April 2018, and combined with testing to EN 353-1:2018, MSA is delighted to announce its guided type fall arresters have successfully achieved EU type approval under the PPE Regulations. Of course, there can be no compromise when setting the standard for the safety of workers at height and the EU type-examination process for EN 353-1:2018 was suitably rigorous. It incorporated a number of dynamic tests that covered all eventualities and put all elements of working at height equipment through its paces. These included: Dynamic performance test – testing to check the maximum arrest force Cold condition testing – checking locking function in cold conditions Minimum distance test – testing to replicate the user falling close to the anchor line Fall back test – which replicates the user falling back and down Guide bracket test – testing the strength of the bracket and anchor line and the locking function of fall arrester in the event of a fall Sideways fall test – testing to replicate the user falling in a sideways direction Leaning angle test – testing the locking function of the fall arrester with the anchor line leaning forward and sideways Static strength requirements – testing to check the overall strength of the system Tim Bissett finished by saying: “As best-practice leaders for working at height equipment, we’re of course happy that we’ve helped put a robust compliance process in place. We’re confident that once again we’re exceeding standards that ensure the safety of everyone using our equipment for working at height.”
