Fourier exoskeleton is a product developed in China.
Introduction to Fourier exoskeleton:
Fourier intelligent exoskeleton robot has a unique main control unit, with motors at the knee joints, etc., and at the hip joints, knee joints and calves. There is a data collector that collects the strength of the patient during the training process for real-time control. Currently, the passive mode is mainly used, where the machine leads the person to walk and continuously performs repetitive gait training.
Fourier X2 has 4 power units and 6 multi-dimensional mechanical sensors, which are located on the thighs, calves and soles of the feet. Through the arrangement of more than ten sensors, a set of perception systems can be formed to "read" more intelligently. According to the person's movement intention, the power output is adjusted according to the amount of force to achieve different movement modes.
Aimed at the crowd:
Fourier intelligent exoskeleton robot is mainly targeted at patients with lower limb paralysis and spinal cord injury caused by stroke. This method of getting rid of wheelchairs and beds and adopting upright rehabilitation training is a major breakthrough in the development of science and technology. It is also good news for paraplegic patients. It is of great benefit to them in improving their motor function, digestive function and psychological state.
Fourier exoskeleton market demand:
The domestic rehabilitation patient population is very large, but the gap of Chinese rehabilitation therapists is about 300,000, and most of the advanced rehabilitation treatment resources are They are concentrated in big cities such as Beijing, Shanghai, and Shenzhen, and are very scarce in second- and third-tier cities. At the same time, many people spend their time in bed after being paralyzed and have little awareness of recovery.
The development and application of exoskeleton robot technology can bring two major benefits:
First, exoskeleton robots can be used to replace therapists in repetitive, high-intensity rehabilitation training movements and collect real-time data. The data will help patients carry out rehabilitation treatment more accurately and improve treatment efficiency.
The second is to continuously reduce costs through technological updates and iterations and the integration of supply chain resources, so that more people can afford rehabilitation robots, and to a certain extent, alleviate the uneven distribution of rehabilitation resources between regions.
The Exoskeleton Robot Open Platform (EXOPS) is also constantly being optimized and upgraded. We also hope that more universities and research institutes will join this platform and work together to promote exoskeleton technology. The rapid development of the robotics industry.
The above data comes from Sohu.com.