Bearings for Robotics

 

The bearings used in robotic applications must be high precision with good rotational accuracy and reliability. Articulated robotic arms, for example, require bearings in the rotary joints. Our robot bearings are mainly EZO thin-type precision bearings but we also provide EZO miniature bearings for small scale robots. Both types of robotic bearing provide a high level of accuracy as a result of EZO’s advanced manufacturing techniques and quality control.

Robots are, understandably, playing an increasingly large role in modern life. As they become more adaptable and more intuitive, manufacturers are realising their potential to reduce costs, increase production and provide greater efficiency and competitiveness.

More portable and affordable robotic arms are allowing increasing numbers of companies to enjoy the benefits of automation. Robots can also help with health and safety in the workplace by performing tasks in hazardous environments, removing the risk of injury or disease. They can assist workers who do monotonous or physically demanding jobs.

Robots provide accuracy and repeatability in processes such as painting, assembly, handling, welding, cutting, packaging and dispensing. They are used in automotive, electronic, pharmaceutical and space industries.

Robots are finding increasing use in the medical industry, allowing surgeons to perform complex surgical procedures, often remotely, and help prosthetic limbs perform more natural movements.

Simple robots can also be worn thanks to the recent development of robotic exoskeletons. These help workers in factories or airports to lift heavy objects and staff in care homes to lift people with much less chance of injury.

Where robots need to work in extreme or controlled environments, our relubrication facility allows us to supply robotic bearings with specialist lubricants for high temperature use, food or beverage production, clean rooms or vacuum environments.

Find out more about bearings for robotics in our whitepaper. Click here to download.

B&P2024