Joint robots and parallel robots have shown extensive application potential in modern industry and scientific research fields, each specializing in different application scenarios. Next, the editor will give you a brief introduction.
Joint robots, with their flexible multi joint design, simulate the movement of human arms and shine in environments that require high-precision and complex trajectory operations. They are widely used in welding, spraying, assembly and other processes in automobile manufacturing, as well as automated production lines in industries such as electronics and food packaging. They can efficiently complete complex tasks, improve production efficiency and product quality.
Parallel robots, with their strong rigidity, fast speed, and high accuracy, perform well in situations that require high-speed, high-precision positioning and repetitive operations. In fields such as semiconductor packaging, precision machining, and drug sorting, parallel robots can quickly respond and achieve micrometer level precision operations, meeting the production requirements for extremely high speed and accuracy. In addition, parallel robots also play an important role in stable support and precise control in scientific research and exploration fields such as particle physics and astronomical observations.
Based on the above understanding, articulated robots and parallel robots each have their own advantages, suitable for different application scenarios that require high flexibility and complex operations, as well as the pursuit of ultimate speed and accuracy.
