CN110755052A - Cervical vertebra rehabilitation training detection device and method based on big data - Google Patents

Abstract

The invention relates to a cervical vertebra rehabilitation training detection device based on big data, which comprises a rehabilitation training platform and a flexible sheath; the upper end of the outer side surface of the flexible sheath is fixedly sleeved with a first fixing ring, and the lower end of the outer side surface of the flexible sheath is fixedly sleeved with a second fixing ring; the first fixing ring is connected with the second fixing ring through a plurality of elastic rods; a pressure detector is arranged on the second fixing ring, the pressure detector is connected with one end of the elastic rod, and the other end of the elastic rod is fixedly connected with the first fixing ring; the second fixing ring is provided with a processor module, a wireless module, a voice module and a power supply; the rehabilitation training platform can provide scientific and reasonable rehabilitation training scheme after big data analysis, and adopt flexible sheath to carry out the detection of training in-process, can carry out the standardization of action when individual dresses flexible sheath and trains, makes individual anytime and anywhere can carry out systematic cervical vertebra rehabilitation training, practices thrift hospital's resources.

Description

Cervical vertebra rehabilitation training detection device and method based on big data

Technical Field

The invention relates to the technical field of cervical vertebra rehabilitation training, in particular to a device and a method for detecting cervical vertebra rehabilitation training based on big data.

Background

The cervical vertebra, which is the cervical vertebra, is located below the head and above the thoracic vertebra, and is located in the cervical segment of the spine, and is surrounded around the cervical marrow and the meninges thereof, and connected by intervertebral discs and ligaments, forming a physiological curvature that is convex forward. The cervical vertebra is characterized in that the vertebral body is small and oval, a transverse process hole is arranged on the transverse process, and the vertebral artery and the vertebral vein pass through the hole; the joints of the upper and lower articular processes are approximately horizontal, so that the neck can move flexibly;

at present, the rehabilitation training for cervical vertebra lacks systematicness, basically requires a user to go to a hospital by oneself and depends on a doctor to carry out special rehabilitation massage, and a person is difficult to carry out professional rehabilitation training by oneself, so that the resource waste of the hospital is large, the rehabilitation cost is high, and the treatment effect is poor.

Disclosure of Invention

The invention aims to solve the technical problem of providing a device and a method for detecting cervical vertebra rehabilitation training based on big data aiming at the defects in the prior art.

The technical scheme adopted by the invention for solving the technical problems is as follows:

constructing a cervical vertebra rehabilitation training detection device based on big data, wherein the cervical vertebra rehabilitation training detection device comprises a rehabilitation training platform and a wearable sleeve-shaped flexible sheath sleeved on the neck of a human body; the rehabilitation training platform is used for analyzing the rehabilitation training data of the cervical vertebra patient based on big data and giving a training scheme by combining the personal data information of the patient; the upper end of the outer side surface of the flexible sheath is fixedly sleeved with a first fixing ring, and the lower end of the outer side surface of the flexible sheath is fixedly sleeved with a second fixing ring; the first fixing ring and the second fixing ring are provided with notches and can be stretched in the radial direction; the first fixing ring is connected with the second fixing ring through a plurality of elastic rods; a pressure detector is arranged on the second fixing ring and connected with one end of the elastic rod, and the other end of the elastic rod is connected with the first fixing ring; the second fixing ring is provided with a processor module for receiving signals of the pressure detectors, a wireless module for communicating with the rehabilitation training platform, a voice playing module and a power supply for supplying power to the modules.

The cervical vertebra rehabilitation training detection device based on big data is characterized in that a notch is formed in the flexible sheath, and a magic tape A and a magic tape B matched with the magic tape A are respectively arranged at two ends of the notch.

The invention relates to a cervical vertebra rehabilitation training detection device based on big data, wherein correction motors which are in one-to-one correspondence with elastic rods are arranged on a first fixing ring, inner studs are arranged at the movable ends of the correction motors, and internal threads matched with inner holes of the inner studs are arranged at the end parts of the elastic rods; the correction motor is electrically connected with and controlled by the processor module; and a zero returning button for controlling the plurality of correction motors is arranged on the second fixing ring.

According to the cervical vertebra rehabilitation training detection device based on the big data, the wireless module is further used for communicating with a mobile end of a user, a training APP is arranged on the mobile end of the user, and the training APP is used for sending a control instruction to the processor module and sending training effect data and personal data information to the rehabilitation training platform.

A cervical vertebra rehabilitation training detection method based on big data is disclosed, according to the cervical vertebra rehabilitation training detection device based on big data, the realization method is as follows:

the first step is as follows: a user inputs personal data information and uploads the personal data information to a rehabilitation training platform, and the rehabilitation training platform analyzes a training course based on big data processing and sends the training course to the flexible sheath;

the second step is that: a processor module on the flexible sheath processes the training course and converts the training course into a voice instruction for storage;

the third step: after a user wears the flexible sheath, the switch is started, the processor module plays a voice command through the voice module, and the user conducts head swinging motion training along with the voice command.

The invention relates to a cervical vertebra rehabilitation training detection method based on big data, wherein a voice command is divided into a plurality of units according to one head swinging motion as a unit, the plurality of units have time sequence, and the pressure detector reading in the corresponding direction is acquired in the middle of the adjacent units:

if the reading of the pressure detector does not reach a set threshold interval, voice prompt with too small action is carried out;

if the reading of the pressure detector exceeds a set threshold interval, voice prompt with overlarge action is carried out;

and if the reading of the pressure detector is in a set threshold interval, playing a voice prompt of the next unit.

The invention relates to a cervical vertebra rehabilitation training detection method based on big data, wherein the value of a pressure detector is reset to zero after a flexible sheath is worn:

and when the zero return button is pressed, the processor module detects the readings of all the current pressure detectors, drives the correction motor corresponding to the pressure detector with the reading not equal to zero to operate, adjusts the depth of the elastic rod extending into the inner stud, and stops the operation of the correction motor when the reading of the pressure detector is zero.

According to the cervical vertebra rehabilitation training detection method based on the big data, before training, a user uploads personal data information to the rehabilitation training platform through the mobile terminal, and the rehabilitation training platform analyzes a training course and simultaneously sends the training course to the mobile terminal of the user.

According to the cervical vertebra rehabilitation training detection method based on the big data, after training is started, the rehabilitation training platform receives the state information of the processor module in real time and synchronizes to the mobile end of the user.

According to the cervical vertebra rehabilitation training detection method based on the big data, after training is finished, a user uploads training experience data to the rehabilitation training platform through the mobile terminal.

The invention has the beneficial effects that: the rehabilitation training platform can give scientific and reasonable's rehabilitation training scheme after big data analysis to adopt flexible sheath to carry out the detection of training in-process, the standardization that can move when individual dresses flexible sheath and trains guides, makes individual anytime and anywhere can carry out systematic cervical vertebra rehabilitation training, practices thrift the hospital resource, and individual cost of seeking medical advice, and individual need not any experience and just can carry out efficient treatment by oneself.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the present invention will be further described with reference to the accompanying drawings and embodiments, wherein the drawings in the following description are only part of the embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive efforts according to the accompanying drawings:

FIG. 1 is a schematic block diagram of a big data-based detection device for cervical rehabilitation training according to a preferred embodiment of the present invention;

FIG. 2 is a cross-sectional view of a big data based cervical spine rehabilitation training detection device according to a preferred embodiment of the present invention;

FIG. 3 is a sectional top view of a cervical spine rehabilitation training detection device based on big data according to a preferred embodiment of the present invention;

fig. 4 is a flowchart of a method for detecting rehabilitation training of cervical vertebrae based on big data according to a preferred embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the following will clearly and completely describe the technical solutions in the embodiments of the present invention, and it is obvious that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without inventive step, are within the scope of the present invention.

The cervical vertebra rehabilitation training detection device based on big data of the preferred embodiment of the invention is shown in fig. 1, and also refers to fig. 2-3, and comprises a rehabilitation training platform 1 and a wearable sleeve-shaped flexible sheath 2 sleeved on the neck of a human body; the rehabilitation training platform 1 is used for analyzing the rehabilitation training data of the cervical vertebra patient based on big data and providing a training scheme by combining the personal data information of the patient; the upper end of the outer side surface of the flexible sheath 2 is fixedly sleeved with a first fixing ring 20, and the lower end of the outer side surface of the flexible sheath 2 is fixedly sleeved with a second fixing ring 21; the first fixing ring 20 and the second fixing ring 21 are provided with notches and can be stretched in the radial direction; the first fixing ring 20 and the second fixing ring 21 are connected through a plurality of elastic rods 22; the second fixing ring 21 is provided with a pressure detector 210, the pressure detector 210 is connected with one end of the elastic rod 22, and the other end of the elastic rod 22 is connected with the first fixing ring 20; the second fixing ring 21 is provided with a processor module 211 for receiving signals of the pressure detectors 210, a wireless module 212 for communicating with the rehabilitation training platform 1, a voice playing module 213 and a power supply 214 for supplying power to the modules;

the rehabilitation training platform 1 can provide a scientific and reasonable rehabilitation training scheme after big data analysis, the flexible sheath 2 is adopted for detection in the training process, and the individual can conduct standardized guidance of actions when wearing the flexible sheath 2 for training, so that the individual can conduct systematic cervical vertebra rehabilitation training anytime and anywhere, hospital resources are saved, the individual medical cost is saved, and the individual can conduct efficient treatment by himself without any experience;

the rehabilitation training platform 1 can collect cervical vertebra disease information of a plurality of patients, corresponding rehabilitation conditions, doctor recommended techniques and other related information to provide a scientific and reasonable rehabilitation training scheme, wherein medical staff can participate or not participate.

Preferably, the flexible sheath 2 is provided with a notch 23, and two ends of the notch 23 are respectively provided with a magic tape a230 and a magic tape B231 matched with the magic tape a; convenient dress and fixed.

Preferably, the first fixing ring 20 is provided with a correction motor 200 corresponding to the elastic rod 22 one by one, the movable end of the correction motor 200 is provided with an inner stud 201, and the end of the elastic rod 22 is provided with an inner thread matched with an inner hole of the inner stud 201; the correction motor 200 is electrically connected with and controlled by the processor module 211; a zero-returning button 215 for controlling the plurality of correction motors 200 is arranged on the second fixing ring 21; the zeroing instruction is conveniently sent through the zeroing button 215, the processor module 211 controls the correction motor 200 to rotate after receiving the instruction, the depth of the elastic rod 22 extending into the inner stud 201 is adjusted, and then the initial reading of the pressure detector 210 is zeroed; through this kind of mode, can make the human neck of adaptation that can be comparatively convenient when not only dressing of flexible sheath, and dress back and carry out the adjustment of zeroing to precision when the guarantee training test.

Preferably, the wireless module 212 is further configured to communicate with the mobile terminal 3 of the user, the mobile terminal 3 of the user is provided with a training APP, and the training APP is configured to send a control instruction to the processor module 211 and send training effect data and personal data information to the rehabilitation training platform 1; is convenient to use.

According to the cervical vertebra rehabilitation training detection device based on the big data, as shown in fig. 4, the implementation method is as follows:

s01: a user inputs personal data information and uploads the personal data information to a rehabilitation training platform, and the rehabilitation training platform analyzes a training course based on big data processing and sends the training course to the flexible sheath;

s02: a processor module on the flexible sheath processes the training course and converts the training course into a voice instruction for storage;

s03: after a user wears the flexible sheath, the switch is started, the processor module plays a voice command through the voice module, and the user conducts head swinging motion training along with the voice command.

The rehabilitation training platform 1 can provide a scientific and reasonable rehabilitation training scheme after big data analysis, the flexible sheath 2 is adopted for detection in the training process, and the individual can conduct standardized guidance of actions when wearing the flexible sheath 2 for training, so that the individual can conduct systematic cervical vertebra rehabilitation training anytime and anywhere, hospital resources are saved, the individual medical cost is saved, and the individual can conduct efficient treatment by himself without any experience;

preferably, the voice command is divided into a plurality of units by taking one head swing as a unit, the plurality of units have a time sequence, and the reading of the pressure detector in the corresponding direction is acquired in the middle of the adjacent units:

if the reading of the pressure detector does not reach the set threshold interval, voice prompt with too small action is carried out;

if the reading of the pressure detector exceeds a set threshold interval, voice prompt with overlarge action is carried out;

if the reading of the pressure detector is in a set threshold interval, playing a voice prompt of the next unit;

the training action of each step is conveniently normalized, and the training effect of neck training is guaranteed.

Preferably, the value of the pressure detector is zeroed after the flexible sheath is worn:

pressing a zero-resetting button, detecting the readings of all current pressure detectors by the processor module, driving a correction motor corresponding to the pressure detector with the reading not being zero to operate, adjusting the depth of the elastic rod extending into the inner screw column, and stopping the operation of the correction motor when the reading of the pressure detector is zero; convenient to use, through this kind of mode, can make flexible sheath not only when dressing can be comparatively convenient the human neck of adaptation, and the adjustment of zeroing is carried out after dressing to precision when the guarantee training test.

Preferably, before training, a user uploads personal data information to the rehabilitation training platform through the mobile terminal, and the rehabilitation training platform analyzes a training course and simultaneously sends the training course to the mobile terminal of the user; is convenient to use.

Preferably, after training begins, the rehabilitation training platform receives the state information of the processor module in real time and synchronizes the state information to the mobile end of the user; is convenient to use.

Preferably, after the training is finished, the user uploads training experience data to the rehabilitation training platform through the mobile terminal; the training course customization device is convenient to use, and can also be used as a basis for customizing the next training course through training experience data.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are intended to be included within the scope of the invention as defined in the appended claims.

Claims (10)

1. A cervical vertebra rehabilitation training detection device based on big data is characterized by comprising a rehabilitation training platform and a wearable sleeve-shaped flexible sheath sleeved on the neck of a human body; the rehabilitation training platform is used for analyzing the rehabilitation training data of the cervical vertebra patient based on big data and giving a training scheme by combining the personal data information of the patient; the upper end of the outer side surface of the flexible sheath is fixedly sleeved with a first fixing ring, and the lower end of the outer side surface of the flexible sheath is fixedly sleeved with a second fixing ring; the first fixing ring and the second fixing ring are provided with notches and can be stretched in the radial direction; the first fixing ring is connected with the second fixing ring through a plurality of elastic rods; a pressure detector is arranged on the second fixing ring and connected with one end of the elastic rod, and the other end of the elastic rod is connected with the first fixing ring; the second fixing ring is provided with a processor module for receiving signals of the pressure detectors, a wireless module for communicating with the rehabilitation training platform, a voice playing module and a power supply for supplying power to the modules.

2. The big data-based detection device for cervical vertebra rehabilitation training according to claim 1, wherein an incision is formed in the flexible sheath, and a magic tape A and a magic tape B matched with the magic tape A are respectively arranged at two ends of the incision.

3. The big-data-based detection device for cervical vertebra rehabilitation training as claimed in claim 1, wherein the first fixing ring is provided with a correction motor corresponding to the elastic rod one by one, the movable end of the correction motor is provided with an inner stud, and the end of the elastic rod is provided with an internal thread matched with an inner hole of the inner stud; the correction motor is electrically connected with and controlled by the processor module; and a zero returning button for controlling the plurality of correction motors is arranged on the second fixing ring.

4. The big data based detection device for cervical vertebra rehabilitation training according to claim 1, wherein the wireless module is further used for communicating with a mobile terminal of a user, a training APP is arranged on the mobile terminal of the user, and the training APP is used for sending a control instruction to the processor module and sending training effect data and personal data information to the rehabilitation training platform.

5. A big data based cervical vertebra rehabilitation training detection method, the big data based cervical vertebra rehabilitation training detection device according to any one of claims 1-4, characterized in that the realization method is as follows:

the first step is as follows: a user inputs personal data information and uploads the personal data information to a rehabilitation training platform, and the rehabilitation training platform analyzes a training course based on big data processing and sends the training course to the flexible sheath;

the second step is that: a processor module on the flexible sheath processes the training course and converts the training course into a voice instruction for storage;

the third step: after a user wears the flexible sheath, the switch is started, the processor module plays a voice command through the voice module, and the user conducts head swinging motion training along with the voice command.

6. The big-data-based detection method for cervical vertebra rehabilitation training as claimed in claim 5, wherein the voice command is divided into a plurality of units by taking one head swing as a unit, the plurality of units have a time sequence and the reading of the pressure detector in the corresponding direction is obtained in the middle of the adjacent units:

if the reading of the pressure detector does not reach a set threshold interval, voice prompt with too small action is carried out;

if the reading of the pressure detector exceeds a set threshold interval, voice prompt with overlarge action is carried out;

and if the reading of the pressure detector is in a set threshold interval, playing a voice prompt of the next unit.

7. The big data based detection method for cervical vertebra rehabilitation training according to claim 6, wherein the value of the pressure detector is zeroed after the flexible sheath is worn:

and when the zero return button is pressed, the processor module detects the readings of all the current pressure detectors, drives the correction motor corresponding to the pressure detector with the reading not equal to zero to operate, adjusts the depth of the elastic rod extending into the inner stud, and stops the operation of the correction motor when the reading of the pressure detector is zero.

8. The big data based detection method for cervical vertebra rehabilitation training according to claim 5, wherein before training, the user uploads personal data information to the rehabilitation training platform through the mobile terminal, and the rehabilitation training platform analyzes the training course and then sends the training course to the mobile terminal of the user.

9. The big data based detection method for rehabilitation training of cervical spine according to claim 8, wherein after training begins, the rehabilitation training platform receives the state information of the processor module in real time and synchronizes to the mobile terminal of the user.

10. The cervical spine rehabilitation training detection method based on big data according to claim 8, wherein after training is finished, a user uploads training experience data to the rehabilitation training platform through a mobile terminal.

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