The Reach Robotics AI physiotherapy robot is a robot specially developed for industries such as beauty and body care, traditional Chinese medicine physiotherapy for the elderly, etc. It combines robotic technology and AI technology and is applicable to the healthcare industry. This robot consists of parts such as the main body, main controller, robotic arm, sensor integration, massage tools, control panel, and electrical system. It has advantages like autonomous acupoint recognition and the ability to mimic the structure of the human hand, support for secondary development of massage heads, and professional technical research support. The Reach Robotics AI physiotherapy robot provides an efficient solution in the fields of medical massage and moxibustion, combining traditional Chinese medicine with modern science and technology, which helps to promote the modernization and intelligence of traditional Chinese medicine physiotherapy.
Autonomous Acupoint Recognition and Imitation of the Structure of the Human Hand: The robot can autonomously recognize acupoints and is equipped with massage tools that mimic the structure of the human hand. It supports customized development of massage programs by institutions specialized in medical care and traditional Chinese medicine physiotherapy, verifies the theories of traditional Chinese medicine, and enables innovation in traditional Chinese medicine physiotherapy.
Support for Secondary Development of Massage Heads: The robot supports the secondary development of traditional and new manual massage devices, such as moxibustion, bian-stone, piezoelectric shock wave massage technology, fascia guns, and suspended magnetic diagnosis and treatment instruments, and integrates them onto the platform, enabling the rapid development of robots with different physiotherapy functions.
Professional Technical Research Support: The platform opens the robotic arm control interface, supports the calling of 3D vision SDK and the adaptation of ROS open-source function packages for various external devices, and supports universities and research institutions in conducting research on visual positioning, robotic arm motion control, and so on.
