QualCert ISO 13851:2019 in Machinery Safety

Welcome to the “ISO 13851:2019 in Machinery Safety” course, designed to equip professionals with a comprehensive understanding of the internationally recognized standards for machinery safety. ISO 13851:2019 outlines the principles for the design and implementation of safeguarding devices on machinery, specifically focused on two-hand control devices, ensuring worker safety and reducing risk. This course offers an in-depth exploration of ISO 13851:2019 and its applications, empowering participants to enhance machinery safety standards within their organizations.

Course Overview:

In this course, you will delve into the key principles and requirements of ISO 13851:2019, a standard that governs the use of two-hand control devices for machinery safety. ISO 13851:2019 is crucial for organizations seeking to comply with global safety regulations and provide a secure working environment. The course covers the standard’s definition, design requirements, risk assessments, and testing methods, ensuring that participants gain the necessary knowledge to apply ISO 13851:2019 effectively.

Throughout the course, you will gain the skills needed to implement and maintain machinery safety systems that meet the latest ISO standards. You’ll also have a practical understanding of how to incorporate two-hand control mechanisms into machinery safety protocols to prevent accidents, reduce operational hazards, and safeguard workers.

Course Benefits:

By completing the ISO 13851:2019 in Machinery Safety course, you will:

1. Understand International Safety Standards: Gain a thorough understanding of ISO 13851:2019 and how it applies to machinery safety.
2. Enhance Workplace Safety: Learn to implement and maintain effective safety controls on machinery, protecting workers from potential hazards.
3. Boost Career Prospects: ISO certification is globally recognized, and this expertise will enhance your qualifications in the field of industrial safety.
4. Ensure Compliance: Develop the necessary skills to ensure compliance with international safety regulations and standards.
5. Increase Efficiency and Productivity: By minimizing risks and improving safety protocols, you can enhance overall productivity and reduce downtime.

Course Study Units:

•  Introduction to Machinery Safety Standards
• Fundamentals of Crushing Hazards
• Principles of Minimum Gaps
•  Design Considerations for Minimum Gaps
• Testing and Verification of Minimum Gaps
• Implementation and Compliance
• Case Studies and Practical Applications
• Maintenance and Troubleshooting
•  Regulatory Framework and Standards

Course Learning Outcomes:

Introduction to Machinery Safety Standards

• Understand the significance of international machinery safety standards in ensuring worker protection.
• Explore the purpose and importance of ISO 13854:2017 in preventing crushing hazards in machinery.
• Examine the historical development and evolution of regulations regarding minimum gaps to prevent injury or accidents.

Fundamentals of Minimum Gaps

• Define the concept of minimum gaps and their critical role in preventing crushing hazards.
• Identify the factors that influence minimum gap requirements, including machinery design and operating conditions.
• Review real-world case studies to understand how minimum gaps play a key role in preventing crushing incidents.

Calculation and Determination of Minimum Gaps

• Learn methods for calculating and determining minimum gap dimensions based on machinery design and operational parameters.
• Interpret minimum gap requirements outlined in ISO 13854:2017 and other applicable standards.
• Gain proficiency in using calculation tools and software to accurately determine minimum gap dimensions.

Factors Influencing Minimum Gaps

• Evaluate the various factors affecting minimum gap requirements, such as speed, force, and direction of moving parts.
• Analyze case studies to understand how different machinery configurations impact the minimum gap design.
• Develop strategies to optimize minimum gaps, ensuring maximum protection against crushing hazards.

Compliance and Verification

• Learn how to verify compliance with minimum gap requirements through testing, measurement, or simulation methods.
• Understand how to interpret testing results to assess if the minimum gaps meet the required standards.
• Develop the skills to create and maintain documentation for minimum gap calculations and verification processes in line with ISO 13854:2017.

Integration with Machinery Design

• Discover how to incorporate minimum gap requirements into machinery design processes from the outset.
• Collaborate with design teams to ensure minimum gap considerations are part of the initial machinery development.
• Assess the impact of minimum gap requirements on machinery performance, efficiency, and overall usability.

Practical Applications and Case Studies

• Apply the principles of minimum gaps to real-world machinery scenarios and practical applications.
• Analyze case studies of machinery accidents, identifying how better minimum gap design could have prevented or reduced the severity of these incidents.
• Develop strategies for implementing minimum gap requirements across diverse industrial environments to improve safety.

Maintenance and Troubleshooting

• Learn how to implement maintenance procedures to ensure ongoing adherence to minimum gap requirements.
• Troubleshoot common issues related to minimum gaps, such as wear, misalignment, or damage to safety devices.
• Conduct inspections and preventive maintenance to mitigate potential risks associated with insufficient minimum gaps.

Continuous Improvement and Best Practices

• Identify opportunities for continuous improvement in managing minimum gaps and enhancing machinery safety.
• Implement best practices to optimize minimum gap requirements in accordance with industry standards and regulations.
• Foster collaboration and knowledge sharing with industry peers to continuously improve machinery safety outcomes.

Who is This Course For?

This course is ideal for:

• Safety Managers: Those responsible for overseeing machinery safety protocols and ensuring workplace safety.
• Machinery Designers: Engineers and designers looking to incorporate ISO 13851:2019 safety standards into their machinery systems.
• Compliance Officers: Professionals responsible for ensuring regulatory compliance within manufacturing and industrial environments.
• HSE Practitioners: Health, Safety, and Environment (HSE) professionals seeking to enhance their knowledge of machinery safety standards.
• Quality Assurance Managers: Individuals looking to integrate ISO standards into their quality assurance processes.
• Industrial Safety Technicians: Technicians involved in the maintenance, testing, and implementation of machinery safety devices.

Future Progression:

Upon successful completion of this course, participants may pursue further specialization in machinery safety and industrial risk management through advanced certifications. You can also explore related fields such as:

• ISO 45001 Occupational Health and Safety Management Systems: Deepen your understanding of global health and safety standards for organizations.
• ISO 12100:2010 – Machinery Safety: Dive deeper into risk assessments and machine safety design principles.
• Advanced Industrial Automation and Control Systems: Gain expertise in automation technologies and their role in enhancing workplace safety.

This course serves as a strong foundation for individuals seeking to progress into higher-level safety management positions or specialized machinery safety roles in various industrial sectors.

The ISO 13851:2019 in Machinery Safety course is an essential program for professionals dedicated to enhancing workplace safety and ensuring compliance with global standards. By mastering the principles of ISO 13851:2019, you will contribute to a safer working environment, improve machinery safety protocols, and advance your career in the field of industrial safety.