The working radius and effective load are important indicators for evaluating the physical capabilities of a robotic arm. For example, the working radius of Z-Arm 14080 is 1400mm and the effective load is 10kg1.
The accuracy of repeated positioning and the maximum joint speed are related to the precision and work efficiency of the robotic arm. For example, the repeated positioning accuracy of Z-Arm 14080 is ± 0.05mm, and the maximum joint velocity is 180 °/s1.
Degrees of freedom, which refers to the number of axes that a robotic arm can independently move, usually the more flexible the arm's movements are. For example, myCobot and LT750 are both six axis robotic arm 12.
The number and type of I/O ports determine the connection capability between the robotic arm and external devices. For example, the Z-Arm 14080 has multiple I/O ports 1 at both the end and control box.
The power supply requirements and usage environment are related to the applicable scenarios of the robotic arm. For example, the Z-Arm 14080 requires a 220V/50HZ power supply and should be used within a certain temperature and humidity range
A six axis robotic arm consists of six rotating joints that can move in three planes, allowing the arm to perform various tasks in three-dimensional space. The design of a six axis robotic arm considers six degrees of freedom, enabling it to perform diverse tasks in various complex working environments. The independent movement of each axis allows for more flexible operation while maintaining high precision, which is one of the characteristics that other robotic arms do not possess. The six axis robotic arm can perform various tasks through different tools and accessories, making it widely used in different fields. It can be used in multiple processes such as assembly, handling, packaging, welding, etc., to meet the needs of different industries. This multifunctionality makes it a universal tool in various fields, providing flexible solutions for intelligent manufacturing.
The widespread application of six axis robotic arms benefits from their high efficiency, flexibility, and precision. It has accurate motion control capability and can achieve precise positioning at the micrometer level, which makes it perform well in high-precision production operations such as part assembly, laser cutting, and other fields. With the assistance of a six axis robotic arm, human errors in the manufacturing process are eliminated, thereby improving production efficiency and product quality. In addition, with the development of automation technology, six axis robotic arms can perform repetitive and tedious operations on production lines, which not only improves work efficiency but also protects workers' physical health. This automated application helps to improve the working environment and enhance production efficiency