阅读说明：本技术 骨科智能支具 (Intelligent support for orthopedics department ) 是由 不公告发明人 于 2018-03-27 设计创作，主要内容包括：本发明骨科智能支具包括至少两个圈体(100)、第一连杆(200)、动杆部(300)、服务器、用户终端。本发明通过配置在圈体(100)上的动杆部(300)来调节第一连杆(200)的周向位置,以便调节至少两个圈体(100)之间的距离和夹角,从而适应不同人体、甚至不同位置的支撑固定,以便使本发明多次使用。并且,通过服务器和用户终端可远程的智能操纵的颈椎、腰椎、脚踝支具。(The orthopedic intelligent brace comprises at least two ring bodies (100), a first connecting rod (200), a movable rod part (300), a server and a user terminal. The invention adjusts the circumferential position of the first connecting rod (200) through the movable rod part (300) arranged on the ring body (100) so as to adjust the distance and the included angle between at least two ring bodies (100), thereby being suitable for supporting and fixing different human bodies and even different positions so as to lead the invention to be used for multiple times. And the cervical vertebra, lumbar vertebra and ankle brace can be remotely and intelligently controlled through the server and the user terminal.)

1. An intelligent orthopedic brace, which is characterized in that: comprises that

At least two ring bodies (100) for supporting a user;

a first link (200) for connecting the ring body (100);

the movable rod parts (300) are arranged on each ring body (100), at least 3 movable rod parts (300) are arranged on each ring body (100), the movable rod parts (300) corresponding to the upper and lower positions of at least two ring bodies (100) are used for driving the circumferential positions of the ring bodies (100) where two ends of one first connecting rod (200) are located so as to adjust the distance and the included angle of the at least two ring bodies (100), and the movable rod parts (300) are uniformly distributed along the circumferential direction of the ring bodies (100);

a server wirelessly connected to the power supply module of the movable rod part (300);

a user terminal wirelessly connected with the server;

the movable rod part (300) comprises a first motor (301), a second connecting rod (302), a third connecting rod (303), a first sliding block (304), a first guide rail (305) and a first pin body (306), the first motor (301) is fixed with the ring body (100), an output shaft of the first motor (301) is fixed with one end of the second connecting rod (302), the other end of the second connecting rod (302) is hinged with one end of the third connecting rod (303), the other end of the third connecting rod (303) is connected with the first sliding block (304), the first sliding block (304) moves along the first guide rail (305), the first guide rail (305) is configured on the outer circumferential surface of the ring body (100), the first pin body (306) is mounted on the first sliding block (304) through a bearing, and the first pin body (306) is mounted at one end of the first connecting rod (200) through a bearing, the power supply module of the first motor (301) is in wireless connection with the server.

2. The orthopedic intelligent brace of claim 1, wherein: the ring body (100) is connected with at least one expansion piece (400) in series, the expansion piece (400) comprises a supporting cylinder (420), a second guide rail (402), a first rack (403), a second rack (404), a first gear (405), a second motor (406), a fourth connecting rod (407), a second pin body (408) and a supporting rod (409), one end of the first rack (403) is connected with one end of the ring body (100), one end of the second rack (404) is connected with the other end of the ring body (100), the upper side and the lower side of the inner surface of the rear side of the supporting cylinder (420) are respectively provided with the second guide rail (402), the first rack (403) moves along the second guide rail (402) on the upper side, the second rack (404) moves along the second guide rail (402) on the lower side, the center of the inner surface of the rear side of the supporting cylinder (420) is provided with the first gear (405) through a bearing, the first gear (405) is meshed with the first rack (403) and the second rack (404) at the same time, the second rack (404) is fixed to the lower end of the supporting rod (409), the supporting rod (409) is provided with a first long circular hole (410), a second pin body (408) moving along the first long circular hole (410) is arranged in the first long circular hole, the front end of the second pin body (408) is hinged to one end of a fourth connecting rod (407), the other end of the fourth connecting rod (407) is fixed to an output shaft of the second motor (406), the second motor (406) is fixed to the front inner surface of the supporting cylinder (420), and a power supply module of the second motor (406) is wirelessly connected with the server.

3. The orthopedic intelligent brace of claim 1, wherein: the two ends of the ring body (100) are connected through a buckle.

4. The orthopedic intelligent brace of claim 1, wherein: two ends of the ring body (100) are respectively connected through two permanent magnets.

5. The orthopedic intelligent brace of claim 1, wherein: a cloth sleeve is arranged between the ring body (100) at the upper side and the ring body (100) at the lower side, a traditional Chinese medicine layer is arranged on the inner circumferential surface of the cloth sleeve, and the traditional Chinese medicine layer is prepared from the following components in parts by weight:

100 parts of kiwi fruit juice, 20 parts of pine sawdust, 13 parts of herba patriniae, 11 parts of glossy privet fruit, 14 parts of medicated leaven, 10 parts of morinda officinalis, 6 parts of epimedium herb, 3 parts of dried pleurotus eryngii, 7 parts of dogwood, 1 part of dried orange peel, 2 parts of bighead atractylodes rhizome, 5 parts of straw, 3 parts of corn stigma, 4 parts of pyrola, 4 parts of heartleaf houttuynia herb, 3 parts of silkworm chrysalis, 1 part of red paeony root, 2 parts of cassia occidentalis, 3 parts of common cnidium fruit, 4 parts of chicken's gizzard-membrane, 2 parts of kudzuvine root and 0.0057 part;

the traditional Chinese medicine layer is prepared by the following method:

s100, preparing a first medicament: adding 10 times of water into the patrinia, the glossy privet fruit, the medicated leaven, the morinda officinalis, the epimedium, the dried pleurotus eryngii, the dogwood, the dried tangerine peel, the bighead atractylodes rhizome, the straws, the corn stigma, the pyrola, the houttuynia cordata, the silkworm chrysalis, the red paeony root, the cassia occidentalis, the common cnidium fruit, the chicken's gizzard-membrane and the kudzuvine root, and decocting the mixture for 2 hours by slow fire;

s200, preparing a second medicament: adding the pine sawdust into a first medicament, cooling to normal temperature, and filtering to obtain a second medicament;

s300, preparing a third medicament: adding kiwi fruit juice and EDTA-2Na into the second medicament, and uniformly stirring to obtain a third medicament;

s400, configuring a traditional Chinese medicine layer: the third preparation is applied to the inner surface of the cloth cover, and dried to obtain the traditional Chinese medicine layer.

Technical Field

The invention relates to a medical instrument, in particular to an orthopedic intelligent cervical vertebra, lumbar vertebra and ankle brace.

Background

The support is also called as an orthopedic device, and is an in vitro support device for relieving the dysfunction of four limbs, a spine and a skeletal muscle system.

At present, the brace replaces the traditional plaster fixing mode due to the characteristics of fixation and good disassembly. Currently, the available styles of braces are roughly of the following types:

A. the fixed models of large, medium and small sizes are adapted to different crowds;

B. the model is made of a heat setting material such as plaster or plastic, and each user is allowed to step on the model to customize the brace.

The brace A only has three or more fixed styles and cannot adapt to the individual shapes of more crowds.

The brace of the above-mentioned model B needs to be wetted or heated to soften the brace material and then let the user step on the mold. The joint support only can be suitable for a user for a certain period of time, and cannot be suitable for the user to use after years or other users.

Therefore, there is a need for an intelligent orthopedic brace with adjustable shape to adapt to more use environments.

Disclosure of Invention

The invention aims to provide an intelligent orthopedic brace with adjustable shape to adapt to more use environments.

The invention relates to an orthopedic intelligent brace, which comprises

At least two ring bodies for supporting a user;

a first link for connecting the ring body;

the moving rod parts are arranged on each ring body, at least 3 moving rod parts are arranged on each ring body, the moving rod parts corresponding to the upper and lower positions of at least two ring bodies are used for driving the circumferential positions of the ring bodies where two ends of one first connecting rod are located so as to adjust the distance and the included angle of at least two ring bodies, and the moving rod parts are uniformly distributed along the circumferential direction of the ring bodies;

the server is wirelessly connected with the power supply module of the movable rod part;

a user terminal wirelessly connected with the server.

The orthopedic intelligent brace is characterized in that the number of the ring bodies is at least three, the number of the first connecting rods is at least six, each ring body is provided with at least six moving rod parts, first connecting rods are arranged between odd number moving rod parts of the at least six moving rod parts corresponding to the circumferential position of the ring body on the upper side of the odd number moving rod parts, and first connecting rods are arranged between even number moving rod parts of the at least six moving rod parts corresponding to the circumferential position of the ring body on the lower side of the even number moving rod parts.

The invention discloses an orthopedic intelligent brace, wherein the moving rod comprises a first motor, a second connecting rod, a third connecting rod, a first sliding block, a first guide rail and a first pin body, the first motor is fixed with the ring body, an output shaft of the first motor is fixed with one end of the second connecting rod, the other end of the second connecting rod is hinged with one end of the third connecting rod, the other end of the third connecting rod is connected with the first sliding block, the first sliding block moves along the first guide rail, the first guide rail is arranged on the outer circumferential surface of the ring body, the first pin body is arranged on the first sliding block through a bearing, the first pin body is arranged at one end of the first connecting rod through a bearing, and a power module of the first motor is wirelessly connected with a server.

The invention relates to an orthopedic intelligent brace, wherein at least one expansion piece is connected in series with a ring body, the expansion piece comprises a support plate, a second guide rail, a first rack, a second rack, a first gear, a second motor, a fourth connecting rod, a second pin body and a support rod, one end of the first rack is connected with one end of the ring body, one end of the second rack is connected with the other end of the ring body, the upper side and the lower side of the support plate are respectively provided with the second guide rail, the first rack moves along the second guide rail on the upper side, the second rack moves along the second guide rail on the lower side, the center of the support plate is provided with the first gear through a bearing, the first gear is simultaneously meshed with the first rack and the second rack, the second rack is fixed with the lower end of the support rod, the support rod is provided with a first oblong hole, and a second pin body moving along the first oblong hole is arranged in the first oblong hole, one end, close to the supporting plate, of the second pin body is hinged to one end of the fourth connecting rod, the other end of the fourth connecting rod is fixed to an output shaft of the second motor, the second motor is fixed to the supporting plate, and a power supply module of the second motor is in wireless connection with the server.

The invention relates to an orthopedic intelligent brace, wherein at least one expansion piece is connected in series with a ring body, the expansion piece comprises a support cylinder, a second guide rail, a first rack, a second rack, a first gear, a second motor, a fourth connecting rod, a second pin body and a support rod, one end of the first rack is connected with one end of the ring body, one end of the second rack is connected with the other end of the ring body, the upper side and the lower side of the inner surface of the rear side of the support cylinder are respectively provided with the second guide rail, the first rack moves along the second guide rail on the upper side, the second rack moves along the second guide rail on the lower side, the center of the inner surface of the rear side of the support cylinder is provided with the first gear through a bearing, the first gear is simultaneously meshed with the first rack and the second rack, the second rack is fixed with the lower end of the support rod, the support rod is provided with a first slotted hole, a second pin body moving along the first long circular hole is arranged in the first long circular hole, the front end of the second pin body is hinged to one end of a fourth connecting rod, the other end of the fourth connecting rod is fixed to an output shaft of a second motor, the second motor is fixed to the front inner surface of the supporting cylinder, and a power supply module of the second motor is in wireless connection with the server.

The orthopedic intelligent brace is characterized in that two ends of the ring body are connected through buckles.

The two ends of the ring body are respectively connected through the two permanent magnets.

The invention relates to an orthopedic intelligent brace, wherein a cloth sleeve is arranged between a ring body on the upper side and a ring body on the lower side, and a traditional Chinese medicine layer is arranged on the inner circumferential surface of the cloth sleeve and is prepared from the following components in parts by weight:

100 parts of kiwi fruit juice, 20 parts of pine sawdust, 13 parts of herba patriniae, 11 parts of glossy privet fruit, 14 parts of medicated leaven, 10 parts of morinda officinalis, 6 parts of epimedium herb, 3 parts of dried pleurotus eryngii, 7 parts of dogwood, 1 part of dried orange peel, 2 parts of bighead atractylodes rhizome, 5 parts of straw, 3 parts of corn stigma, 4 parts of pyrola, 4 parts of heartleaf houttuynia herb, 3 parts of silkworm chrysalis, 1 part of red paeony root, 2 parts of cassia occidentalis, 3 parts of common cnidium fruit, 4 parts of chicken's gizzard-membrane, 2 parts of kudzuvine root and 0.0057 part;

the traditional Chinese medicine layer is prepared by the following method:

s100, preparing a first medicament: adding 10 times of water into the patrinia, the glossy privet fruit, the medicated leaven, the morinda officinalis, the epimedium, the dried pleurotus eryngii, the dogwood, the dried tangerine peel, the bighead atractylodes rhizome, the straws, the corn stigma, the pyrola, the houttuynia cordata, the silkworm chrysalis, the red paeony root, the cassia occidentalis, the common cnidium fruit, the chicken's gizzard-membrane and the kudzuvine root, and decocting the mixture for 2 hours by slow fire;

s200, preparing a second medicament: adding the pine sawdust into a first medicament, cooling to normal temperature, and filtering to obtain a second medicament;

s300, preparing a third medicament: adding kiwi fruit juice and EDTA-2Na into the second medicament, and uniformly stirring to obtain a third medicament;

s400, configuring a traditional Chinese medicine layer: the third preparation is applied to the inner surface of the cloth cover, and dried to obtain the traditional Chinese medicine layer.

The orthopedic intelligent brace is different from the prior art in that the circumferential position of the first connecting rod is adjusted through the movable rod part arranged on the ring body so as to adjust the distance and the included angle between at least two ring bodies, thereby being suitable for supporting and fixing different human bodies and even different positions and being used for multiple times. And the cervical vertebra, lumbar vertebra and ankle brace can be remotely and intelligently controlled through the server and the user terminal.

The intelligent orthopedic brace of the invention is further described with reference to the accompanying drawings.

Drawings

Fig. 1 is a schematic front view of an orthopedic intelligent brace in a first state;

FIG. 2 is a schematic front view of the orthopedic intelligent brace in a second state;

FIG. 3 is a schematic front view of the orthopedic intelligent brace in a third state;

FIG. 4 is a top view of FIG. 1;

FIG. 5 is an enlarged view of a portion of FIG. 4;

FIG. 6 is a partial enlarged view of the rotated first condition of FIG. 4;

FIG. 7 is an enlarged fragmentary view of the second rotated condition of FIG. 4;

fig. 8 is a left side view of a modified construction of fig. 6.

Detailed Description

As shown in figures 1-8, referring to figures 1, 2 and 3, the orthopedic intelligent brace comprises

At least two ring bodies 100 for supporting a user;

a first link 200 for connecting the ring body 100;

the moving rod parts 300 are arranged on each ring body 100, at least 3 moving rod parts 300 are arranged on each ring body 100, the moving rod parts 300 corresponding to the upper and lower positions of at least two ring bodies 100 are used for driving the circumferential positions of the ring bodies 100 where two ends of one first connecting rod 200 are located so as to adjust the distance and the included angle of the at least two ring bodies 100, and the moving rod parts 300 are uniformly distributed along the circumferential direction of the ring bodies 100;

a server wirelessly connected to the power module of the movable rod part 300;

a user terminal wirelessly connected with the server.

The plaster and plastic brace can be used only once and cannot be used for a long time after being sterilized. Therefore, the present invention adjusts the circumferential position of the first connecting rod 200 through the movable rod part 300 arranged on the ring body 100 so as to adjust the distance and the included angle between at least two ring bodies 100, thereby adapting to the supporting fixation of different human bodies and even different positions, so as to make the present invention be used for multiple times. And the cervical vertebra, lumbar vertebra and ankle brace can be remotely and intelligently controlled through the server and the user terminal.

Preferably, the number of the ring bodies 100 is at least three, the number of the first connecting rods 200 is at least six, at least six movable rod parts 300 are arranged on each ring body 100, first connecting rods 200 are arranged between the odd-numbered movable rod parts 300 of the at least six movable rod parts 300 corresponding to the circumferential position of the ring body 100 on the upper side, and first connecting rods 200 are arranged between the even-numbered movable rod parts 300 of the at least six movable rod parts 300 corresponding to the circumferential position of the ring body 100 on the lower side.

According to the invention, through the configuration mode, two adjacent ring bodies 100 are supported by the three first connecting rods 200, so that the connection is stable. Moreover, the first connecting rods 200 of the middle ring body 100 for connecting the upper ring body 100 and the lower ring body 100 are staggered and distributed in a rank mode, and the mutual movement of the first connecting rods can be guaranteed to be free from obstruction.

The movement process is as shown in fig. 1 to 3, the first connecting rod 200 is obliquely arranged to shorten the distance between the two ring bodies 100 or to form an included angle between the two ring bodies 100, and the first connecting rod 200 is vertically arranged to extend the distance between the two ring bodies 100 or to form an included angle between the two ring bodies 100.

Preferably, referring to fig. 4 and 5, the movable rod portion 300 includes a first motor 301, a second connecting rod 302, a third connecting rod 303, a first slider 304, a first guide rail 305, and a first pin 306, the first motor 301 is fixed to the ring body 100, an output shaft of the first motor 301 is fixed to one end of the second connecting rod 302, the other end of the second connecting rod 302 is hinged to one end of the third connecting rod 303, the other end of the third connecting rod 303 is connected to the first slider 304, the first slider 304 moves along the first guide rail 305, the first guide rail 305 is disposed on an outer circumferential surface of the ring body 100, the first pin 306 is mounted on the first slider 304 through a bearing, the first pin 306 is mounted on one end of the first connecting rod 200 through a bearing, and a power module of the first motor 301 is wirelessly connected to the server.

The rotation of the first motor 301 is controlled by the user terminal and the server, so that the first slider 304 of the slider-crank mechanism is driven to reciprocate, so that one end of the first connecting rod 200 moves along the circumferential direction of the ring body 100, and the first connecting rod 200 is vertical or inclined through the cooperation of the two movable rod parts 300, so that the distance or the included angle between the two ring bodies 100 can be adjusted. In addition, the drive mode of the reciprocating motion of the slider-crank mechanism is more suitable for driving the first connecting rod 200 than other structures, and the two ends of the first slider 304 of the slider-crank mechanism do not need limiting blocks to limit, so that the first slider 304 is prevented from falling off.

Wherein, the first slider 304 is connected with the first guide rail 305 through a dovetail groove and a dovetail slider, so that the first slider 304 can not fall off.

Preferably, referring to fig. 6 and 7, at least one expansion device 400 is connected in series to the ring body 100, the expansion device 400 includes a support plate 401, a second guide rail 402, a first rack 403, a second rack 404, a first gear 405, a second motor 406, a fourth link 407, a second pin 408, and a support rod 409, one end of the first rack 403 is connected to one end of the ring body 100, one end of the second rack 404 is connected to the other end of the ring body 100, the upper side and the lower side of the support plate 401 are respectively provided with the second guide rail 402, the first rack 403 moves along the second guide rail 402 on the upper side, the second rack 404 moves along the second guide rail 402 on the lower side, the center of the support plate 401 is provided with the first gear 405 through a bearing, the first gear 405 is simultaneously engaged with the first rack 403 and the second rack 404, the second rack 404 is fixed to the lower end of the support rod 409, the supporting rod 409 is provided with a first long circular hole 410, a second pin body 408 moving along the first long circular hole 410 is arranged in the first long circular hole 410, one end, close to the supporting plate 401, of the second pin body 408 is hinged to one end of the fourth connecting rod 407, the other end of the fourth connecting rod 407 is fixed to an output shaft of the second motor 406, the second motor 406 is fixed to the supporting plate 401, and a power supply module of the second motor 406 is wirelessly connected with the server.

The second motor 406, the second pin 408 and the first long circular hole 410 drive the second rack 404 to transversely reciprocate, and the first gear 405 drives the first rack 403 to move in a mirror image direction, so that the circumference of the ring body 100 can be randomly adjusted, and the reliability of the device can be ensured by the characteristics of automatic reset, repeated movement and no need of additional limit block for limiting. The invention can adjust the circumference of the ring body 100 through the telescopic device 400, is not only suitable for different people, but also suitable for different parts, and the telescopic ring body 100 is more convenient for wearing and taking off.

Wherein, the ring body 100 may be a c-shaped ring, and a telescopic device 400 is disposed at the connection position of the c-shaped ring, or the ring body 100 is made of a plurality of c-shaped rings, and the ends of the plurality of c-shaped rings are connected by the telescopic device 400.

Preferably, 6 retractors 400 are provided for one ring body 100, and of course, 2, 3, 4, 5, 7, and 8 ring bodies may be provided.

Of course, a variant of the telescopic device 400 can also be: referring to fig. 6 and 8, at least one expansion device 400 is connected in series to the ring body 100, the expansion device 400 includes a support cylinder 420, a second guide rail 402, a first rack 403, a second rack 404, a first gear 405, a second motor 406, a fourth link 407, a second pin 408, and a support rod 409, one end of the first rack 403 is connected to one end of the ring body 100, one end of the second rack 404 is connected to the other end of the ring body 100, the upper side and the lower side of the rear inner surface of the support cylinder 420 are respectively provided with the second guide rail 402, the first rack 403 moves along the upper second guide rail 402, the second rack 404 moves along the lower second guide rail 402, the center of the rear inner surface of the support cylinder 420 is provided with the first gear 405 through a bearing, the first gear 405 is engaged with the first rack 403 and the second rack 404, and the second rack 404 is fixed to the lower end of the support rod 409, the supporting rod 409 is provided with a first long circular hole 410, a second pin 408 moving along the first long circular hole 410 is arranged in the first long circular hole 410, the front end of the second pin 408 is hinged to one end of a fourth connecting rod 407, the other end of the fourth connecting rod 407 is fixed to an output shaft of the second motor 406, the second motor 406 is fixed to the front inner surface of the supporting cylinder 420, and a power supply module of the second motor 406 is wirelessly connected with the server.

Preferably, both ends of the ring body 100 are connected by a snap.

Preferably, both ends of the ring body 100 are respectively connected by two permanent magnets.

The two ends of the ring body 100 are connected through the buckles or the permanent magnets, so that the ring body 100 can be in a strip shape when being opened, and the two strip ends are fixed into a ring shape through the buckles and the permanent magnets.

Preferably, a cloth cover is arranged between the ring body 100 at the upper side and the ring body 100 at the lower side, and a traditional Chinese medicine layer is arranged on the inner circumferential surface of the cloth cover and is prepared from the following components in parts by weight:

100 parts of kiwi fruit juice, 20 parts of pine sawdust, 13 parts of herba patriniae, 11 parts of glossy privet fruit, 14 parts of medicated leaven, 10 parts of morinda officinalis, 6 parts of epimedium herb, 3 parts of dried pleurotus eryngii, 7 parts of dogwood, 1 part of dried orange peel, 2 parts of bighead atractylodes rhizome, 5 parts of straw, 3 parts of corn stigma, 4 parts of pyrola, 4 parts of heartleaf houttuynia herb, 3 parts of silkworm chrysalis, 1 part of red paeony root, 2 parts of cassia occidentalis, 3 parts of common cnidium fruit, 4 parts of chicken's gizzard-membrane, 2 parts of kudzuvine root and 0.0057 part;

the traditional Chinese medicine layer is prepared by the following method:

s100, preparing a first medicament: adding 10 times of water into the patrinia, the glossy privet fruit, the medicated leaven, the morinda officinalis, the epimedium, the dried pleurotus eryngii, the dogwood, the dried tangerine peel, the bighead atractylodes rhizome, the straws, the corn stigma, the deer grass, the houttuynia cordata, the silkworm chrysalis, the red paeony root, the cassia occidentalis, the common cnidium fruit, the chicken's gizzard-membrane and the kudzuvine root, and decocting the mixture for 2 hours by slow fire to prepare a first;

s200, preparing a second medicament: adding the pine sawdust into a first medicament, cooling to normal temperature, and filtering to obtain a second medicament;

s300, preparing a third medicament: adding kiwi fruit juice and EDTA-2Na into the second medicament, and uniformly stirring to obtain a third medicament;

s400, configuring a traditional Chinese medicine layer: the third preparation is applied to the inner surface of the cloth cover, and dried to obtain the traditional Chinese medicine layer.

Wherein, the shape of the cloth cover can be a ring-shaped cylindrical structure, which can completely wrap each ring body 100.

The traditional Chinese medicine layer can help the channels and collaterals to operate, promote blood circulation to remove blood stasis, tonify qi and remove dampness, and is beneficial to improving the repair capability of the human body. In addition, the traditional Chinese medicine smell of the traditional Chinese medicine layer can relieve the pain of the patient, so that the mental stress of the patient is relieved.

In Luzhi, women, 33 years old, Harbin people, cervical spondylosis for 3 years, the average pain frequency per day is more than 20, the pain frequency per day is reduced to 2.6 times after the use of the invention for 3 hours per day and 3 months later, and the pain frequency per day is reduced to 1.3 times after the patient keeps wearing the invention for one year.

In 200 cervical spondylosis patients aged 20-40 in a certain Beijing hospital, 100 patients were randomly selected as experimental groups and another 100 patients were selected as control groups. Wherein, the experimental group uses the cloth with the traditional Chinese medicine layer to cover the invention for 3 hours every day, the control group uses the invention without the cloth cover for 3 hours every day, and the comparison effect is as follows after three months:

as can be seen from the comparison, the patients who use the cloth cover with the traditional Chinese medicine layer not only have reduced average pain times per day, but also have more recognition and lose with obviously relieved pain.

The above-mentioned embodiments are merely illustrative of the preferred embodiments of the present invention, and do not limit the scope of the present invention, and various modifications and improvements of the technical solution of the present invention by those skilled in the art should fall within the protection scope defined by the claims of the present invention without departing from the spirit of the present invention.