Fourier Exoskeleton is a product developed in China.
Introduction of Fourier exoskeleton:
Fourier intelligent exoskeleton robot has a unique master control unit, there are motors in the knee joints, etc., and there are data collectors in the hip, knee and calf to collect the size of the patient's strength in the training process in order to carry out real-time control, and at present the main use of the passive mode, by the machine with the person walking, constantly Repetitive gait training.
Fourier X2 has four power units, six multi-dimensional mechanical sensors, located in the thigh, calf and sole of the foot, through the arrangement of more than ten sensors can form a set of perception system, more intelligent "read" the human movement intention, and then according to the size of the force to adjust the power output, to realize the different movement patterns.
For the crowd:
Fourier intelligent exoskeleton robots are mainly targeted at stroke-induced paralysis of the lower limbs, spinal cord injury patients. This way of getting rid of wheelchairs and beds and adopting upright rehabilitation training is a major breakthrough in the development of science and technology, and it is even a boon for paraplegic patients, which is greatly beneficial to them in improving their motor function, digestive function and psychological state.
Fourier exoskeleton market demand:
Domestic rehabilitation patient population is very large but China's shortage of rehabilitation therapists in the scale of about 300,000, and farce to tease the advanced rehabilitation therapy resources are mostly concentrated in Beijing, Shanghai, Shenzhen and other big cities, in the second and third tier cities are very scarce. At the same time, many people spend their time in bed after being paralyzed and have little awareness of rehabilitation.
The development of exoskeleton robot technology and its application can bring two major benefits:
One is to replace the therapist with an exoskeleton robot to do repetitive, high-intensity rehabilitation training movements, real-time data collection is conducive to the patient to more accurately carry out the rehabilitation treatment command noisy, to enhance the efficiency of treatment.
The second is through the technology update and iteration and the integration of supply chain resources, continue to reduce costs, so that more people can afford to use the rehabilitation robot, to a certain extent, to alleviate the uneven distribution of rehabilitation resources between regions.
The Exoskeleton Robotics Open Platform (EXOPS) is constantly being optimized and upgraded, and it is hoped that more colleges and universities and research institutes will join the platform and work together to promote the rapid development of the exoskeleton robotics industry.
The above data is from Sohu.com.