Smart robot for lumbar vertebra intensive training recovery

Abstract

The invention relates to a smart robot for lumbar vertebra intensive training recovery, which comprises a bearing frame, a detecting hand ring, and a control system; the control system is electricallyconnected with the bearing frame and the bearing frame and the detecting hand ring, wherein the bearing frame coats at the waist part of a human body, and the detecting hand ring sleeves at a hand wrist of the human body; the bearing frame comprises a positioning ring, an elastic telescopic rod, an assistant spring, a flexible protecting cover, an electric heating device, an adjusting motor, a nerve exciting electrode and a biosensor; the control system comprises a bearing shell, a driving power source, a charging and discharging control circuit and a control circuit. On the one hand, the smart robot can effectively bear and position the lumbar vertebra and is good for lightening the stress of the injured lumbar vertebra; on the other hand, the smart robot adds moderate elastic resistanceto the movement direction of the lumbar vertebra according to the use demand, positions and supports the lumbar vertebra while sustainably and effectively provides load for the movement of lumbar vertebra, and greatly improves the convenience and continuity of performing the intensified training on the muscle tissues of the lumbar vertebra part.

Description

technical field [0001] The invention relates to an intelligent robot for lumbar spine strengthening training and rehabilitation, which belongs to the technical field of physical exercise. Background technique [0002] At present, in the process of physical training activities such as swimming and weightlifting and the treatment and rehabilitation of lumbar diseases such as lumbar disc herniation, it is often necessary to use professional auxiliary strengthening training and defense equipment to perform restorative or intensive training on the lumbar spine, but in practice In the current rehabilitation exercise and intensive training, there is a lack of effective auxiliary training and exercise equipment. Therefore, on the one hand, the equipment used in the current lumbar spine rehabilitation exercise and intensive training is poor in versatility, and there are insufficient flexibility and reliability in use. and the low degree of automation of operation, so it is difficult ...

AI Technical Summary

Problems solved by technology

[0002] At present, in the process of physical training activities such as swimming and weightlifting and the treatment and rehabilitation of lumbar diseases such as lumbar disc herniation, it is often necessary to use professional auxiliary strengthening training and defense equipment to carry out restorative or intensive training for the lumbar spine, but in practice In the current rehabilitation exercise and intensive training, there is a lack of effective auxiliary training and exercise equipment. Therefore, on the one hand, the equipment used in the current lumbar rehabilitation exercise and intensive training is poor in versatility, and there are insufficient flexibility and reliability in use. and the low degree of automation of operation, so it is difficult to perform lumbar spine rehabilitation and intensive training at present, and during rehabilitation and intensive training, it is not possible to flexibly adjust the amount of rehabilitation and intensive training activities according to the needs of use. Continuous rehabilitation exercises and intensive training cannot be performed on users. On the other hand, the degree of automation in rehabilitation exercises and intensive training operations is low, the data feedback ability is insufficient, and the lumbar spine also lacks effective cold protection and biologically active stimulation capabilities. As a result, the current lumbar spine rehabilitation and intensive training equipment is in use, and the operation accuracy is low, and it is impossible to fully detect the changes in the physiological parameters of the user during the rehabilitation exercise and intensive training. Therefore, it is impossible to formulate a scientific and reasonable lumbar spine rehabilitation. and training programs, thus seriously affecting the efficiency, quality and accuracy of lumbar rehabilitation and intensive training. Therefore, in response to this problem, it is urgent to develop a lumbar rehabilitation and Intensive training equipment to meet the needs of actual use

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