Robotics end-of-arm tooling (EOAT) is a critical component in maximizing the efficiency and productivity of robots in manufacturing and other industries. EOATs are designed to interact with the workpiece, which can be anything from a small part to a large object. The right EOAT can increase throughput, reduce cycle times and improve product quality. There are many factors to consider when choosing an EOAT, including the type of gripper, end effector and material handling system.
Benefits of using end-of-arm tooling
End-of-arm tooling (EOAT) is one of the most important components of an automated robotic system. EOATs are used to pick up, move, and manipulate objects in a variety of applications. There are many benefits to using EOATs, including:
1. Increased productivity: EOATs can work faster and more accurately than human workers, which leads to increased productivity.
2. Reduced costs: EOATs can often do the same job as a human worker for less money, which reduces costs for businesses.
3. Increased safety: EOATs can help to create a safer workplace by reducing the need for humans to work in dangerous or difficult conditions.
4. Better quality: EOATs can produce products with greater consistency and accuracy than human workers, leading to better quality products.
Industry Insight:
The robotics arm tooling industry is expected to grow due to the increased adoption of robots in the food and beverage industry, which allows for multitasking that runs smoothly with little human intervention. The industry is expected to grow due to the increasing demand for pharmaceutical technologies. The robotic EOAT also allows industry operators to do multiple tasks at once, reducing the amount of manpower and lowering the overall product cost. These are just a few of the major factors that will drive the market in the forecast period.
The industry growth is impeded by the high cost of developing robotics. China is a major producer and supplies the computerized parts. However, due to the China-America Trade War, China stopped supplying the products. This is one of the main factors that will limit the growth of this market in the forecast period. COVID-19 has had a detrimental effect on the economies worldwide, but it also allows modernization and digitization of products to be done.
High deployment costs for industrial robots have slowed demand for end-of-arm-tooling. This is the main challenge to global robotics market growth. Industrial robot users also need to invest on special-end effectors such as vacuum pickers and enclosures which can collect multiple cases with one pick.
FDM, additive manufacturing and robotic end-of-arm-tooling will drive global market growth. FDM technology will continue to be used for robotics end-of arm-tooling manufacturing. FDM technology offers a more advanced manufacturing process than traditional methods. FDM technology can be customized faster and incorporate complex components, such as lightweight and durable plastics. In the future, additive manufacturing adoption is expected to grow. This type is capable of creating complex geometries and consolidating design features.
FDM technology, as well as additive manufacturing, have been improved to allow for faster design cycles and customization. Robai, a maker of high-precision robots, is a notable adopter. Stratasys used this technology to create components to meet the needs of end-users. FDM technology is more efficient that computer numerical control machines. FDM technology is expected to be used for manufacturing in a substantial increase over the forecast period. This is due to its many advantages such as low cost and short delivery times.
Impact of COVID and Recovery Analysis
The COVID-19 epidemic has hindered APAC’s growth in the robotics end of-arm tooling market. China, India, South Korea and Japan have all reported high COVID-19 rates. Governments in this region have taken steps to limit the spread of the virus, including imposing lockdowns. But, in 2021 the large-scale vaccination drives were launched. This has allowed travel restrictions to be lifted, which enabled the resumption and expansion of supply chain activities. Market growth is expected to be driven by such factors over the forecast period.
