Standards of Safety - Bespoke Supply Solutions

Installed to provide safe and easy access that minimizes the risk of falls and other accidents.

EN 795 is a European standard that provides guidelines for the design, manufacture, installation, and testing of anchor devices used for fall protection systems. This standard includes four classes of anchor devices, each with different requirements for load capacity and testing. The classes are:

– Class A: Personal fall protection anchor devices designed for a single user and with a minimum breaking strength of 12 kN.
– Class B: Restraint anchor devices designed to prevent a fall from occurring and with a minimum breaking strength of 15 kN.
– Class C: Work positioning anchor devices designed for use in situations where the user must maintain a specific position and with a minimum breaking strength of 15 kN.
– Class D: Fall arrest anchor devices designed to stop a fall from occurring and with a minimum breaking strength of 15 kN.

EN 795 also specifies the requirements for marking and labeling of anchor devices, as well as the criteria for testing and certification by a third-party testing organization. Compliance with this standard can help ensure that anchor devices are safe and reliable for use in fall protection systems

Part 3 of EN ISO 14122 specifically addresses stairs, stepladders, and guard-rails. It provides detailed specifications for structural elements, materials, and dimensions of this equipment. The standard also specifies recommendations for the design and positioning of guard-rails to ensure maximum protection for employees.

The standard includes practical examples to illustrate how to design safe access systems for diverse types of machinery and structures. These examples show how to apply the standard’s recommendations to specific situations, taking into account the risks associated with working at height, and the range of human physical abilities and limitations.

In addition, EN ISO 14122 Part 3 includes recommendations for the maintenance of fixed access systems to ensure that they remain in safe and reliable working condition throughout their lifespan.

Overall, EN ISO 14122 Part 3 provides a comprehensive guide for the design, installation, and maintenance of fixed access systems, including stairs, steps, and ladders, in order to provide safe and reliable access for maintenance and inspection work. Designers, manufacturers, installers, and users of access systems can use the standard to ensure compliance with relevant safety legislation and to protect the health and safety of employees.

EN 13374 Class A is a European standard that pertains to temporary edge protection systems. It provides specific requirements for the design, manufacture, and testing of these systems, as well as recommendations on their use and maintenance.

Temporary edge protection systems are designed to provide collective protection against falls from height in areas where permanent edge protection cannot be installed. These systems are commonly used in construction and maintenance activities where there is a need for temporary access to work at height.

EN 13374 Class A provides a framework for the design and performance requirements of temporary edge protection systems, including guardrails and barriers. The standard specifies that these systems should be capable of withstanding a horizontal force of up to 0.75 kilonewtons, which is equivalent to the force of a person falling against the edge protection.

The standard also requires that these systems meet specific dimensional and structural requirements, including spacing between posts, the height of the system, and the materials used. In addition, the standard requires that temporary edge protection systems be installed by trained personnel and that regular inspections and maintenance be conducted to ensure the system remains in good working condition.

The document provides practical guidance on the assessment of the risks when working on roofs and offers advice on how to control and reduce those risks. It also covers topics such as:

– Planning and organizing work on roofs
– Selection and use of equipment and personal protective equipment (PPE)
– Safe working practices, including edge protection, ladders, and scaffolding
– Emergency procedures
– Health hazards, such as exposure to asbestos and other hazardous substances

HSG-33 is aimed at helping organizations and individuals comply with the Health and Safety at Work Act, the Construction (Design and Management) Regulations, and other relevant health and safety legislation.

It is important to note that while HSG-33 is a guidance document, it is not a legal requirement to follow it. However, failure to follow the guidance could lead to legal action and a breach of the law.

INDG 284 “Working on roofs” is a guidance document published by the Health and Safety Executive (HSE) in the United Kingdom. It provides practical advice and guidance for employers and workers who conduct work on roofs, with the aim of helping to prevent accidents and injuries

The guidance document outlines the potential hazards associated with working on roofs and provides suggestions for how to manage these hazards. It covers key topics such as:

– Planning and preparing for work on roofs, including the need for risk assessments and safe systems of work
– Working at height safely, including the use of ladders, scaffold towers and personal fall protection equipment
– The use of roof coverings, including the correct installation and maintenance of materials such as sheeting, tiles and slates
– The safe use of power tools, hand tools and equipment, and the importance of regular checks and maintenance
– Emergency procedures and the importance of having an emergency plan in place

The guidance also emphasizes the importance of good communication and collaboration between employers, workers and contractors, and highlights the need for adequate training and supervision to ensure that all workers are competent and confident in their work.

Overall, INDG 284 provides valuable guidance and practical advice to help prevent accidents and injuries when working on roofs, and is essential reading for anyone involved in this type of work.

BS 6399: Part 2 1995 (sometimes referred to as simply BS 6399-2) is the British Standard for determination of wind loads on structures. It provides guidance and recommendations for the calculation and assessment of wind loads on buildings and structures in the United Kingdom.

Part 2 of the standard specifically covers wind loads on buildings and structures and is often referred to as the Wind Code. It is particularly relevant for buildings and structures that are exposed to high wind speeds, such as tall buildings, bridges, and towers.

The Wind Code sets out the principles and methods for assessing wind loads, including the use of wind speed data, wind direction, turbulence effects and topography. It specifies the design wind speeds and wind direction probabilities for different regions of the UK, as well as the procedures for determining the basic wind speed and site exposure.

The standard also provides guidance on determining wind pressures and forces, and on the design and selection of structural members, cladding systems, and fixings to resist these loads.

Overall, BS 6399: Part 2 1995 Wind Code is an important document for engineers and architects involved in the design of buildings and structures in the UK. It provides guidance and recommendations for the calculation and assessment of wind loads, to ensure that structures are designed and constructed to withstand the effects of wind.