Factory automation can reduce employee injury by eliminating many of the highest risk scenarios.

Every good business owner understands the importance of avoiding injuries among the workforce almost without being told but preventing them isn’t always a simple task. Some jobs are necessarily more dangerous than others and even work that doesn’t seem inherently risky can still take its toll. 

Of this second class, the greatest offenders are ones caused by poor ergonomic conditions in the workspace. These conditions, known as ergonomic hazards, place undue strain on the musculoskeletal system. This includes the muscles and ligaments of the neck and lower spine, like the muscles, tendons, and nerves of the hands and wrists; and the bones and muscles surrounding the legs and knees. 

Three of the most common workplace injuries caused by ergonomic hazards include: 

• Repetitive strain injuries.
• Prolonged positions in the same posture.
• Strain caused by awkward or risky movements. 

The good news is that automation offers direct solutions to many of these scenarios. Even in partially automated environments, assistive technology can significantly reduce the strain placed on human bodies. Here are three ways automation creates a more ergonomic work environment for workers. 

1) Automation reduces or eliminates repetitive tasks 

Many traditional manufacturing tasks require strictly controlled movements that need to be replicated thousands of times a day. The impact of even seemingly small movements can build over time, leading to weakened muscles and damaged nerves. Conditions such as tennis elbow, carpal tunnel, and tendonitis can make it impossible for workers to continue their tasks without exacerbating their injury. It is thought that some working environments, such as operating vibrating machinery, can make these conditions worse. 

Fortunately, high-volume, repeatable tasks are the best candidates for automation, and indeed many have already been redesigned to be handled by machines. However, some tasks have resisted automation because they require more dexterity or awareness of spatial relationships than traditional machine automation has allowed. The latest generation of robots, equipped with advanced vision technology and highly accurate pick-and-place capabilities, is expanding the kinds of tasks that can be automated. 

2) Employees perform a greater variety of tasks 

One of the frustrating paradoxes of workplace injuries is that workers seem to face just as many risks from sitting in one place as they do from moving around. The ergonomic risks of maintaining a fixed position for hours on end are not even immediately obvious to employees, who may adopt a certain posture because they find it comfortable, not realizing the cumulative stress it may place on their neck or back. 

When automated systems are introduced into a work environment, they cut down on the amount of time an employee spends performing any given task. Before, employees might have spent a whole shift in one position. Now, they are more likely to cycle between tasks, moving from station to station as necessary. 

This is especially true in low-volume manufacturing, where more production processes have traditionally been carried out by hand. Even the introduction of a modest automated system can mean that workers have more natural breakpoints during the day to stretch their legs and move around—such as when they’re changing a tooling plate or reprogramming a robot between tasks. 

These changes may seem small, but the simple fact that human workers handle variety better than robots will mean that as homogeneous tasks become automated, the tasks that remain will naturally be heterogeneous, and that’s good news for anyone who doesn’t want to sit still for too long. 

3) Cobots help with movement and positioning 

Finally, many ergonomic hazards stem from moving objects in awkward ways. Workers who must load pallets for storage or shipping may find themselves straining when they bend over or as they lift boxes above their heads. An employee at a workstation may be regularly reaching too far for components or may have to hold parts at uncomfortable angles during the assembly process. The heavier components and assembly tools are, the more physical strain they will place on the worker. 

Collaborative robots, often known as cobots, can ease this strain in numerous ways. For instance, they can offload components from a tray and place them within easy reach of a worker, or they can hold an object in position while a worker completes an assembly step. As robots become more mobile, their applications on the factory floor will only become more varied. We can soon expect to see autonomous helpers as a regular part of operations in any manufacturing setting. 

Worker safety improves when automation is incorporated intelligently. 

Of the benefits provided by automation, too little attention is paid to the ways this technology leads to better working environments for the people working within them. Robots lead to more humane working environments not by removing the need for human workers, but by taking over the work that humans are least suited to handle themselves. 

As automation increases, the nature of work within automated factories will place a greater emphasis on problem-solving, collaboration, and creativity. Human workers will need to program, operate, and oversee tasks being handled by robots and other automated processes. This work will not only be better suited to their natural abilities but as a result, it will be more fulfilling. 

If you are interested in learning more about how automation can improve workplace safety, we can help you. We design processes for your factory that better incorporate automated systems and can also discuss specific safety measures designed to create an injury-free work environment. Contact us to learn more. 

The future of manufacturing depends on skilled workers who have benefited from training in both technical and interpersonal skills. We’re proud to be leaders in their development. 

The manufacturing industry is prioritizing environmental, social, and governance policies more than ever before. Here’s how automation is helping.

The manufacturing sector is increasingly prioritizing environmental, social, and governance (ESG) policies. Automation stands as a pivotal tool in this evolving landscape, enabling companies to meet their sustainability objectives.

In an increasingly interconnected world, responsible corporate stewardship is paramount. Organizations are adopting comprehensive ESG policies to meticulously manage their environmental and social impact, ensuring sustainable practices that resonate with stakeholders. Industry 4.0 provides a suite of sophisticated tools for the streamlined monitoring, analysis, and implementation of data-driven changes. Smart factories, leveraging advanced automation, are embedding best practices into daily operational workflows.

Smart Monitoring: Real-Time Insights for Environmental Accountability

Environmental concerns are driving significant regulatory changes on a global scale. Manufacturers are focusing intently on mitigating emissions and optimizing resource consumption, including water, energy, and raw materials. Stakeholders are demanding greater transparency regarding an organization’s environmental footprint.

Traditional monitoring methods, such as manual wastewater or gas sampling, often lack the granularity and real-time data necessary for effective management. Modern emissions monitoring sensors provide continuous, trackable data, ensuring accountability and fostering stakeholder confidence. Intelligent software analyzes sensor feedback, swiftly flagging anomalies and automatically adjusting processes to maintain compliance with environmental regulations.

Beyond emissions, automation plays a crucial role in monitoring resource usage. This ranges from sophisticated track-and-trace systems for raw materials to granular energy consumption analysis. This includes the identification of energy spikes and the automated adjustment of equipment power modes, minimizing waste and enhancing efficiency.

Waste Reduction: Optimizing Resources for Sustainable Production

Efficiency benefits both ESG initiatives and a business’s bottom line. Optimized resource utilization translates to reduced energy consumption and minimal waste. Automation provides consistent, precise task execution, minimizing worker injury and ensuring high-quality output. Sensor-equipped robotics refine production processes, increasing output and reducing material waste.

Advanced vision and metrology systems ensure rigorous quality control at each stage of the manufacturing process, effectively reducing rework, scrap, and costly product recalls. A high success rate in producing quality products from raw materials minimizes waste, lowering environmental impact and reducing operational costs.

Worker Empowerment: Enhancing Safety and Productivity

The “social” aspect of ESG emphasizes the well-being of the workforce. Automation, when intelligently implemented, enhances productivity and improves the work environment.

Advanced data systems and augmented reality provide workers with comprehensive training, instant data access, assembly instructions, and real-time quality assurance on the factory floor. Collaborative robots (cobots) assist with lifting and positioning, improving worker safety and enhancing the quality of finished products. A safe and supportive working environment fosters talent retention and attracts new workers. Cobots expand the potential labor pool, promoting workforce diversity and inclusivity.

Process and Policy Automation through Software: Ensuring Transparency and Compliance

Automation’s robust software infrastructure supports data security and governance. Digital process controls and manufacturing execution systems (MES) enhance transparency and strengthen cybersecurity measures. Granular software policies implement stringent security protocols, including activity logs and restricted file access.

Digitized processes streamline the implementation of corporate policies, including environmental compliance and equitable hiring criteria. Digital tracking ensures accountability and provides stakeholders with the necessary information to assess a company’s commitment to ESG principles.

Distributed Operations: Global Consistency and Local Optimization

Manufacturing is increasingly global, yet ESG and supply-chain lessons emphasize the importance of localized operations. Standardizing operations across diverse regulatory environments presents a significant challenge. Industrial IIoT and remote monitoring enhance visibility, consistency, and efficiency, reducing travel-related emissions. Centralized data analysis facilitates the consistent implementation of best practices across global facilities.

Advanced automation systems leverage machine intelligence and edge computing for decentralized process control. Localized data analysis reduces latency and energy consumption. Edge systems monitor equipment for preventive maintenance and tailor process recommendations to the unique needs of individual facilities.

Industrial Automation Empowers Manufacturers to Deliver on ESG Goals

Manufacturers are increasingly held accountable for their global impact. Implementing comprehensive ESG policies is crucial for creating sustainable industry practices that benefit corporations, investors, workers, and communities. Industrial automation enhances efficiency, flexibility, and transparency, supporting the achievement of ambitious ESG goals.

Convergix provides customized automation solutions tailored to the unique needs of each business. We assist in waste reduction, efficiency improvement, and smart monitoring implementation. Contact us for a tailored automation strategy that aligns with your ESG objectives.