The main reason for offshore manufacturing is to reduce production costs for a manufacturer who is trying to make more profits by exploiting the comparative advantages that exist in other countries and which are not in his/her country.
It might be entirely possible to collect a good deal of this energy which is deflected during that laser cutting process, or which finds its way through to the other side. What if we tried this strategy to recapture some of that energy; what if we had a ”houseplant pot shaped device” on the other side of the material being cut, and what if we had several of these types of shaped objects surrounding the CO2 laser beam? Those recapturing apparatuses surrounding the laser beam would be set in a concave pattern.
Better accuracy. Robots themselves are 100% accurate. Auditing robotic automation can also be applied to work performed by other staff to ensure accuracy, consistency and compliance to regulations. The Robots themselves also provide a complete audit train of all of their activities and provide reporting capability for audit and process analysis purposes. This improved accuracy also eliminates the need for quality checking and rework, further reducing costs and improving service levels.
The technological innovation and modernization in the field of robotics, increase in demand, and smaller size of cleaning robot as compared to traditional robots are factors propelling the growth of the world cleaning robot market. However, low battery life and lack of durability robotic vacuum cleaners are hindering factors of the market. On the other hand, development of small and user-friendly robots would create opportunities for the growth in the market.
The established companies in the global industrial logistics robots market are Fanuc, Krones, Schaffer, IMA Industries, Denso, ABB, Panasonic, Toshiba, Stabuli, Kawasaki, Pro Mach, Fuji, Clevertech, and MSK Covertech-Group. The primary challenge faced by players in the global industrial logistics robots market is that of training their staff to handle these heavy-duty robots.