CN211409993U - Hand rehabilitation gloves based on MEMS sensor - Google Patents

Abstract

The utility model discloses a hand rehabilitation gloves based on MEMS sensor, rehabilitation gloves include palm portion, finger portion, wrist, palm bandage, wrist bandage, USB connecting wire, MEMS sensor, host computer, five fingers in finger portion part separately, the dactylotheca has all been sewed up to the positive tip in finger portion, the back of finger portion and palm portion is equipped with the MEMS sensor, the back of wrist is fixed with the host computer, the host computer is connected through the bellows with the outside of MEMS sensor, the bottom of host computer is connected with the USB connecting wire. The utility model is provided with the MEMS sensor which can detect the hand movement condition in real time; the hand rehabilitation training device is provided with a host, various hand training programs are arranged in the host, and the rehabilitation training can be carried out on the hands in all directions; the host computer passes through the USB connecting wire and links to each other with the computer, treats that the recovered person can train towards the computer, corrects the action, and training effect is good, and the practicality is strong.

Description

Hand rehabilitation gloves based on MEMS sensor

Technical Field

The utility model belongs to the technical field of hand rehabilitation training device technique and specifically relates to a hand rehabilitation gloves based on MEMS sensor.

Background

The hands of a person are frequently in motion in daily life and are easily injured, and even after the hands are injured, fingers are continuously or permanently dysfunctional for a long time due to tendon adhesion, joint stiffness, muscle atrophy, tissue defect and the like even through treatment. To restore the motor function of the hand as early as possible, it is necessary to perform forced functional exercises on the fingers and the palm. At present, the existing hand rehabilitation training device can train a single item and cannot carry out all-around training on hands.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects in the prior art, the utility model provides a hand rehabilitation glove based on MEMS sensor.

The utility model provides a technical scheme that its technical problem adopted is: a hand rehabilitation glove based on MEMS sensors comprises a palm portion, finger portions, a wrist portion, a palm bandage, a wrist bandage, a USB connecting line, MEMS sensors and a host computer, wherein five fingers of the finger portions are separated, finger sleeves are sewn at finger ends of the front faces of the finger portions, the palm bandage comprises a first palm bandage and a second palm bandage, the first palm bandage is provided with a thumb fixing hole, the second palm bandage is arranged on the lower portion of the edge of a little finger of the finger portion, the first palm bandage and the second palm bandage are connected together through a snap fastener, the wrist bandage comprises a first wrist bandage and a second wrist bandage, the first wrist bandage and the second wrist bandage are respectively sewn on the left side and the right side of the wrist portion, the first wrist bandage and the second wrist bandage are connected together through a nylon fastener, the back faces of the finger portions and the palm portion are provided with the MEMS sensors, the back of wrist portion is fixed with the host computer, the host computer is connected through the bellows with the outside of MEMS sensor, the bellows can 360 wave, the bottom of host computer is connected with the USB connecting wire, the end of USB connecting wire is equipped with the USB plug, the MEMS sensor is connected with the host computer.

Above-mentioned hand rehabilitation gloves based on MEMS sensor, the built-in hand training procedure of host computer, can be connected with the computer display through the USB plug host computer on the USB connecting wire, and then start the hand training procedure, carry out the hand training.

Compared with the prior art the utility model has the advantages of it is following and outstanding effect:

the utility model has the advantages that the hand rehabilitation glove is provided with the MEMS sensor which can detect the hand movement condition in real time; the hand rehabilitation training device is provided with a host, various hand training programs are arranged in the host, and the rehabilitation training can be carried out on the hands in all directions; the host computer passes through the USB connecting wire and links to each other with the computer, treats that the recovered person can train towards the computer, corrects the action, and training effect is good, and the practicality is strong.

Drawings

The present invention will be further explained with reference to the drawings and examples.

FIG. 1 is a front view of the present invention;

fig. 2 is a top view of the present invention.

In the figure, 1, a USB plug, 2, a USB connecting wire, 3, a wrist part, 4, a host, 5, a palm part, 6, an MEMS sensor, 7, a finger part, 8, a finger sleeve, 9, a second palm strap, 10, a second wrist strap, 11, a first wrist strap, 12, a nylon fastener, 13, a snap fastener and 14, a first palm strap.

Detailed Description

In order to make the technical solution of the present invention better understood by those skilled in the art, the present invention will be described in detail with reference to the accompanying drawings and the detailed description.

[ example 1 ]

A hand rehabilitation glove based on an MEMS sensor comprises a palm portion 5, finger portions 7, a wrist portion 3, a palm bandage, a wrist strap, a USB connecting line 2, an MEMS sensor 6 and a host computer 4, wherein five fingers of the finger portion 7 are separated, finger sleeves 8 are sewn at finger ends of the front face of the finger portion 7, the palm bandage comprises a first palm bandage 14 and a second palm bandage 9, the first palm bandage 14 is provided with a thumb fixing hole, the second palm bandage 9 is arranged at the lower portion of the edge of a little finger of the finger portion 7, the first palm bandage 14 and the second palm bandage 9 are connected together through a snap 13, the wrist bandage comprises a first wrist strap 11 and a second wrist strap 10, the first wrist strap 11 and the second wrist strap 10 are respectively sewn at the left side and the right side of the wrist portion 3, the first wrist strap 11 and the second wrist strap 10 are connected together through a nylon fastener 12, the back of finger portion 7 and palm portion 5 is equipped with MEMS sensor 6, the back of wrist portion 3 is fixed with host computer 4, host computer 4 is connected through the bellows with MEMS sensor 6's the outside, the bellows can 360 wave, the bottom of host computer 4 is connected with USB connecting wire 2, the end of USB connecting wire 2 is equipped with USB plug 1, MEMS sensor 6 is connected with host computer 4.

Further, hand training procedure is built in host computer 4, can be connected with the computer display through USB plug 1 host computer 4 on the USB connecting wire 2, and then starts hand training procedure, carries out the hand training.

The above embodiments are only exemplary embodiments of the present invention, and are not intended to limit the present invention, and the protection scope of the present invention is defined by the claims. Various modifications and equivalents of the invention can be made by those skilled in the art within the spirit and scope of the invention, and such modifications and equivalents should also be considered as falling within the scope of the invention.

Claims (1)

1. The hand rehabilitation glove based on the MEMS sensor is characterized by comprising a palm part (5), finger parts (7), a wrist part (3), a palm bandage, a wrist bandage, a USB connecting line (2), the MEMS sensor (6) and a host (4), wherein five fingers of the finger parts (7) are separated, finger sleeves (8) are sewn at the front finger ends of the finger parts (7), the palm bandage comprises a first palm bandage (14) and a second palm bandage (9), the first palm bandage (14) is provided with a big finger fixing hole, the second palm bandage (9) is arranged at the lower part of the edge of a little finger of the finger parts (7), the first palm bandage (14) and the second palm bandage (9) are connected together through a snap (13), and the wrist bandage comprises a first wrist bandage (11) and a second wrist bandage (10), first wrist bandage (11) and second wrist bandage (10) are sewed up respectively in the left and right sides of wrist portion (3), first wrist bandage (11) and second wrist bandage (10) link together through velcro (12), the back of finger portion (7) and palm portion (5) is equipped with MEMS sensor (6), the back of wrist portion (3) is fixed with host computer (4), the outside of host computer (4) and MEMS sensor (6) is connected through the bellows, the bellows can 360 wave, the bottom of host computer (4) is connected with USB connecting wire (2), the end of USB connecting wire (2) is equipped with USB plug (1), MEMS sensor (6) are connected with host computer (4).

Images