ISO 14118:2017 vs EN 1037+A1:2008: A Comprehensive Comparison
This page compares SN EN ISO 14118:2018 against ISO 14118:2017 vs EN 1037+A1:2008 to help the reader decide which applies to their situation. Understanding the distinctions among these standards is crucial for ensuring compliance and safety in machinery design and operation.
Why compare SN EN ISO 14118:2018 and ISO 14118:2017 vs EN 1037+A1:2008
The comparison between SN EN ISO 14118:2018 and the other standards is particularly relevant for safety engineers, compliance officers, and manufacturers in the machinery sector. These professionals are asking this question to determine which standard best addresses their needs for preventing unexpected start-ups in machinery. By understanding the nuances of these standards, they aim to make informed decisions that enhance safety protocols and compliance with international regulations, thus ensuring the safety of personnel working near machinery.
How SN EN ISO 14118:2018 approaches the topic
SN EN ISO 14118:2018 focuses on establishing comprehensive safety requirements to prevent unexpected start-up of machinery. This standard provides guidelines for various safety measures, including effective manual energy disconnection and discharge, signaling and warning systems for delayed start, and risk assessment specific to different machines. The document emphasizes the design procedures necessary to avoid unintended start commands and lays out the safety-related parts of control systems. It also considers multiple types of energy sources, such as mechanical, electrical, pneumatic, and hydraulic systems. By outlining general measures for safety, SN EN ISO 14118:2018 aims to create a safer working environment for operators intervening in danger zones.
How ISO 14118:2017 vs EN 1037+A1:2008 approaches the topic
ISO 14118:2017 and EN 1037+A1:2008 provide foundational guidelines for safety requirements concerning unexpected start-up prevention. ISO 14118:2017 outlines essential measures similar to those in SN EN ISO 14118:2018 but may lack the detailed specificity found in the latest standard. EN 1037+A1:2008 complements these guidance documents by focusing on the prevention of unintentional start-up in machinery, offering a broader perspective on the necessary safety-related control systems and risk assessment methodologies. Both of these standards are designed to ensure compliance with the EU Directive 2006/42/EC, emphasizing the importance of safety in machinery operation but may differ in their approach to implementation and practical application in various scenarios.
Side-by-side comparison
| Criteria | SN EN ISO 14118:2018 | ISO 14118:2017 | EN 1037+A1:2008 |
|---|---|---|---|
| Scope | Comprehensive safety requirements for unexpected start-up prevention | General safety measures for machinery | Guidelines for unintentional start-up prevention |
| Audience | Safety engineers, compliance officers, manufacturers | Machinery designers, safety professionals | Industry stakeholders, safety regulators |
| Cost/Effort | Higher implementation effort due to detailed measures | Moderate, but may lack some specifics | Moderate, focuses on broad safety principles |
| Certification Mechanism | Certification based on compliance with outlined measures | Varies by region and application | Typically aligns with EU directives |
| Typical Use Cases | Advanced machinery requiring stringent safety protocols | General machinery safety assessments | Regulatory compliance in machinery design and operation |
When to choose which
- If you are designing complex machinery that requires detailed safety protocols, choose SN EN ISO 14118:2018 for its comprehensive approach to unexpected start-up prevention.
- If you are working with standard machinery and need general safety guidelines, consider ISO 14118:2017 as it provides essential measures without excessive complexity.
- If your focus is on regulatory compliance within the EU framework, EN 1037+A1:2008 may be appropriate as it aligns closely with EU directives and offers broad safety principles.
- For organizations involved in risk assessment and needing a robust framework for safety-related control systems, SN EN ISO 14118:2018 is the best choice to ensure comprehensive coverage of potential hazards.