Injury goes with the job. Even if every effort is made to make the workplace safe, people can be hurt. The most common accidents at work are slips, trips, and falls, overexertion, and contact with equipment. Regarding occupational diseases, mention can be made of respiratory illnesses, musculoskeletal disorders, and hearing loss. A preventative safety culture is beneficial for workers and employers alike. Rather than trying to patch up things, the focus should be on preventing accidents at work.
Today’s high safety standards in some countries are the result of long-term policies backed by solid labor inspections. The UK’s health and safety laws are well within the international norms. The main responsibility for managing risks lies with the business or the person that creates the danger. Various prevention techniques have proven effective in reducing health and safety risks to workers and others. But none has proven to be as effective as technology.
The availability of technology helps avert accidents at work. By leveraging ever-advancing safety technologies, organizations can better monitor, report, and, ultimately, prevent accidents. Solutions come in many different forms. The following are some key solutions that can be used to help workers avoid job-related injury.
Wearable Devices Provide a Layer of Protection Against Injury
The devices that have penetrated the market offer varied functionality, which ranges from mobile connectivity to medical monitoring. A great many employers are incorporating wearable technology into the workplace to promote health and productivity. Wristbands, for example, warn a person of potential overexertion. They monitor biometrics, such as heart rate, body temperature, and more to determine exertion levels. The devices’ data can be reviewed to develop safety lessons. Thus, the work environment can be modified to reduce risk.
The promise of a healthier and happier workplace appeals to people. Wearables such as smart helmets enjoy popularity among those working in dangerous conditions. The various electronic sensors fitted into the equipment collect data about the surroundings (gasses, motion, and location), which is sent to the administrator/supervisor. Smart helmets can even measure stress levels and emotions. Let’s not forget about technology-enabled gloves. The NGC chips built into the gloves guarantee workers can handle hazards.
Ergonomically-Friendly Equipment Leads to Healthy Working Conditions
Ergonomic improvements reduce the risk factors that lead to discomfort and even injury. Poor ergonomics can cause musculoskeletal disorders, headaches and migraines, stiff neck, and trigger finger, to name a few. By incorporating ergonomically-friendly equipment into everyday practices, enterprises can maximize efficiency and help people avoid accidents at work. In the end, the healthiest workplace is the most profitable one. Successful accident at work prevention demands continual involvement and genuine participation from everyone.
The purpose of ergonomic equipment is to make the working environment as comfortable as possible. Examples of ergonomic essentials include office chairs, desks, monitor arms, CPU supports, keyboards, laptop stands, document holders, and, last but not least, cable management. Employers are required to offer ergonomically-friendly equipment to create a safe, healthy work environment. If an employer is more generous or lenient with certain workers when it comes to the purchase of equipment, this can be regarded as discrimination.
Predictive Analytics Ensures Workers Don’t Encounter Avoidable Hazards
Accidents at work can’t be avoided 100% because some consequences can’t be foreseen. However, their likelihood can be significantly diminished. Workers have the right to sue their employers in certain circumstances. As No Win No Fee Solicitors Co points out, going to court is complicated. Settlement can be achieved by a simple negotiation or as the result of mediation. It’s the responsibility of the business owner to do everything within their means to keep things running smoothly.
Incident reports are limited. Many industries are taking advantage of their big data sets by running advanced analytics. Predictive modeling lets employers know where and when people are the most at risk. The growth in affordability of data technologies translates into the fact that safety professionals enjoy increased access to predictive modeling. Accidents at work can be predicted even before they happen, surprising as it may seem. Safety inspection and observation data from worksites help predict if something terrible is going to happen.
AR And VR Offer Better Training
Besides reducing accidents, employee training leads to safer work practices and productivity improvements. Injuries can occur anywhere, so professionals should take their training seriously because dreadful accidents can happen if protocols aren’t followed. Augmented reality helps employees better retain information, knowledge, and skills. The digital data is laid over a real-world environment, and workers can immerse themselves in the learning process. With AR technology, it’s possible to create 3D models of various courses.
Workers are exposed to hazards daily, so they must develop the necessary skills to overcome them without incurring the actual risk. Safety professionals can leverage virtual classrooms to boost people’s existing skills and help them develop skills in areas such as emergencies, complex tasks, and everyday interactions. Interactive programs can run on VR headsets or on standard mobile devices. People are immersed in an environment that combines physical and digital worlds.
Robots And Drones Ease Jobs in Manufacturing and Industrial Settings
These two technologies address critical safety needs. Automated systems prevent injuries and adverse health effects that result from working in hazardous conditions. Robots perform tasks alongside human workers; the rise of robots doesn’t spell doom for humanity. They can be used to lift heavy objects, carry out repetitive motion tasks, and reach items that are too high up. It goes without saying that the degree of autonomy and self-learning capabilities varies from case to case.
Drones are increasingly being used to examine outdoor sites. They’re typically sent to dangerous areas, such as confined spaces, so drones reduce the risk of employee injury and fatality. These days, drones are equipped with thermal imaging cameras, LiDAR, and 3D cameras. Investing in this technology might seem expensive, yet it can save money in the long run. With the ability to operate in harsh conditions, drones eliminate the need to place people in dangerous environments.