FIELD: medicine.
SUBSTANCE: invention relates to medical equipment. Cybernetic platform for recovery of postural dysfunctions comprises oscillating platform (1) with angular displacement transducers (3) installed on it and a device for interface (5) of signals from sensors with PC input (6), which is configured to convert information from sensors into visual signals for display on monitor (7) to monitor their patient and to implement reverse biological communication through the visual input of the postural system. Platform is additionally equipped with two pairs of heating elements (4) made of Peltier elements with temperature sensors and temperature regulator (8) installed on them. Each pair of heaters is installed on platform at points of patient's feet setting. Heaters in the pair are installed one in the foot heel area, the other one in the foot tip. Temperature regulator is provided with such algorithm of Peltier elements heating, at which patient (10) is forced to change its center of mass in order to ensure position horizontal position oscillating platform. Platform is installed on rubber torus-shaped tire (2), pressure in which is controlled by compressor (9). In addition, phase delay is measured between signals received in PC by processing signals from output of temperature sensors and angular sensors by comparing these signals in phase detector (11).
EFFECT: broader capabilities of the "human-cybernetic device" system when restoring the postural system by imposing penalties for incorrect movements and obtaining real-time information on phase delay; additionally, using the invention enables increasing the probability of achieving a maximum result in correcting postural deficiency syndrome, reducing the rate of restorative treatment, reducing the number of courses conducted, as well as reducing the length of temporary disability and preventing disability.
1 cl, 2 dwg
