Neurology rehabilitation training device based on human habits

A technology of neurology and rehabilitation training, applied in the medical field, can solve problems such as inability to achieve rehabilitation training effects, heavy burden on patients' fingers, finger strain, etc., and achieve the effects of avoiding muscle atrophy, improving the effect of heat therapy, and exercising activity

Active Publication Date: 2021-10-22
裴绪群
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The existing patent No. CN109939417B proposes a hand and finger nerve rehabilitation training device, through the design of the movement adjustment mechanism and other structures, to achieve the functions of adjusting the angle of motion, range of motion, etc. When used by patients who cannot freely control the bending of their fingers, good rehabilitation training effects cannot be achieved, and a large force must be applied to deform the spring during use, which places too much burden on the patient's fingers and is prone to finger strain
[0004] Another patent No. CN102811690A proposes a hand rehabilitation device, which has the same problem as the above-mentioned patent No. CN109939417B. It needs the patient's fingers to apply force to drive the operation of the mechanism in the device. The burden on the patient's fingers is too large during use, and it cannot be used independently. controlled patient hands

Method used

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  • Neurology rehabilitation training device based on human habits
  • Neurology rehabilitation training device based on human habits
  • Neurology rehabilitation training device based on human habits

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0038] Example 1: Please refer to Figure 1-5 , a neurology rehabilitation training device based on human habits, including a glove 1, a rehabilitation movement mechanism 2 and a power source mechanism 3, the glove 1 is a fingerless glove 1, the inside of the glove 1 is hollow, and the rehabilitation movement mechanism is fixed inside the glove 1 2. The power source mechanism 3 is fixedly installed on one side of the rehabilitation movement mechanism 2. The power source mechanism 3 is located outside the glove 1. Through the setting of the glove 1, not only the protective function of the glove 1 can protect the user's hand, but also can Use the heat preservation function of the glove 1 to store heat in the user's hand, reduce the excitability of pain nerves, improve blood circulation, reduce inflammatory edema, etc., reduce the pain caused by the nerves of the user during rehabilitation training, and improve rehabilitation training Effect.

[0039] The rehabilitation movement m...

Embodiment 2

[0041] Embodiment 2: On the basis of Embodiment 1, please refer to Figure 6-8 , the gas cylinder 31 is not connected to the five cylinders A22, the right end of the main board 21 is fixedly connected with five connecting pipes C4, the five connecting pipes C4 are located on the right side inside the glove 1, and the five connecting pipes C4 are close to the main board 21 One end communicates with the top ends of the five cylinders A22 respectively, and the five connecting pipes C4 are respectively connected and communicated with the bottom ends of the five cylinders B23, and the central inner wall of the cylinder A22 is fixedly connected with a partition 5, which is shaped like Cylinder and the diameter is consistent with the diameter of the inner wall of the cylinder A22, the top and the bottom of the front of the cylinder A22 are provided with holes, the cylinder hole on the main board 21 is sleeved with a slide block 6 on the front side of the cylinder A22, and the slide bl...

Embodiment 3

[0042] Embodiment 3: On the basis of Embodiment 1, please refer to Figure 9 , the power source mechanism 3 also includes an airbag plate 35 and straps 36. The airbag plate 35 is a hollow rectangular body and communicates with the connecting pipe B32. Fixedly connected, the back side of the airbag plate 35 is fixedly connected and communicated with the four airbag balls 33. Through the setting of the airbag plate 35, the power source mechanism 3 is driven by the user's legs, and the strength of the human legs is far greater than that of the user. The characteristics of the strength of the arm avoid the fatigue caused by the user's hand pressing, and through the four air balloons 33 corresponding to the positions where the legs are most likely to be bent and stressed during exercise, the operation of the rehabilitation exercise mechanism 2 can be done at the user's fingertips. Constantly and automatically in everyday life.

[0043] When in use, the first step is to first put t...

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Abstract

The invention relates to the field of medical technology, and discloses a neurology rehabilitation training device based on human habits, including gloves, a rehabilitation exercise mechanism and a power source mechanism. The gloves are fingerless gloves, and the inside of the glove is in a hollow state. The movement mechanism, the power source mechanism is fixedly installed on one side of the rehabilitation movement mechanism. The power source mechanism is located outside the glove. Through the setting of the glove, it not only protects the user's hand through the protective function of the glove, but also can use the heat preservation function of the glove Accumulating heat in the user's hands can reduce the excitability of pain nerves, improve blood circulation, reduce inflammatory edema, etc., reduce the pain caused by the nerves when the user performs rehabilitation training, and improve the effect of rehabilitation training. Through rehabilitation exercise The setting of the mechanism utilizes the friction when the piston cylinder B circulates and slides to generate heat, and then dissipates the heat on the glove to provide heating function for the glove.

Description

technical field [0001] The invention relates to the field of medical technology, in particular to a neurology rehabilitation training device based on human habits. Background technique [0002] The innervation of the hand mainly comes from the median nerve, ulnar nerve, and radial nerve. After nerve damage, it will not only cause sensory disturbance, but also often involve the motor and sympathetic nerve functions of the hand, which will greatly affect the hand function. Timely treatment, once the small muscles of the hand atrophy, will affect the effect of treatment, so it is necessary to use rehabilitation training equipment to exercise uninterruptedly to avoid atrophy of small finger muscles. [0003] The existing patent No. CN109939417B proposes a hand and finger nerve rehabilitation training device, through the design of the movement adjustment mechanism and other structures, to achieve the functions of adjusting the angle of motion, range of motion, etc. When used by ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): A61H1/02A61F7/00A41D19/015
CPCA41D19/015A61F7/00A61F2007/0037A61H1/0218A61H1/0285A61H1/0288A61H2201/1238A61H2201/5056
Inventor 裴绪群李萌柴迪一
Owner 裴绪群
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