These days more and more laborious and dangerous tasks are being taken out of our fragile and prone to error human hands and placed under the care of durable and practically infallible automated robotics. This is particularly good news for the manufacturing industry as well as scientific research, where handling potentially hazardous substances like toxic liquids are just part of the daily process.
Robotic tools like automated liquid handling systems have made make it easier and safer to work with those dangerous liquids, saving huge amounts of time and cost in man hours and injury. These amazing automated liquid handling systems are now a key component in industries like food and beverage manufacturing and research and development in many arenas. The following are some of the benefits that make these systems so important to modern endeavours!
Automation – Making use of a robotic system significantly reduces the amount of human labour necessary to manufacture products. Automating tasks partially or fully allows businesses to shift their workforce away from performing repetitive and tedious tasks like filling containers, to more meaningful work that requires the human touch of creativity, concentration, and problem-solving. This can also help manufacturers prevent their valuable personnel from contracting repetitive stress injuries and musculoskeletal disorders that repetitive tasks like positioning vessels or moving filled containers can cause when performed for long periods of time.
Reproducibility – The ability to maintain perfect consistency when working with liquids is an important component of automated liquid handling, reproducing the exact same action over and over without fail is invaluable to manufacturing and scientific laboratory processes. Automated robotic tools can repeat their movements precisely for hours on end, never tiring or making a mistake as they fill vessels with the exact same amount of liquid every single time.
Remote Monitoring And Analysis – Most modern automation systems now offer remote monitoring and analysis features as part of their package to allow technicians to observe and track the performance of their tools even while they themselves are in a different location. These powerful sensors are able to track important information like timing, machine temperature, and efficiency and make this information available to a team working off-site. The automated systems will automatically alert managers and technicians if something goes wrong with the automated liquid handling system and a process needs to be halted, enabling them to expedite repairs and make adjustments quickly.
The critical data that robotic sensors gather during the handling processes can be sent to a manufacturing execution system or to the cloud where it can be stored and analysed later. The gathered data can prove extremely helpful for those technicians seeking insights into their machine’s performance. Data-gathering platforms also make new systems a lot easier to maintain, the presence of ample performance data allows the human staff to design and implement a predictive maintenance strategy using AI algorithms trained on the performance to predict any possible machine failures. This predictive approach is a useful supplement to more traditional preventive maintenance strategies, facilitating the extension of the system’s lifespan and reducing the potential for downtime due to equipment failure.
Automated liquid handling systems take the guesswork out of the process, leaving it in the capable care of the robots.
