WO2018196439A1

WO2018196439A1 - Intelligent wearable device for preventing cervical spondylosis and application method therefor

Info

Publication number: WO2018196439A1
Application number: PCT/CN2018/071249
Authority: WO
Inventors: 梁锦彪
Original assignee: 广东乐源数字技术有限公司
Priority date: 2017-04-24
Filing date: 2018-01-04
Publication date: 2018-11-01
Also published as: CN107126675A

Abstract

An intelligent wearable device for preventing cervical spondylosis and an application method therefor. The wearable device comprises an MCU, a G-Sensor, a storage module, a comparison module, and an alarm module. First, the intelligent wearable device is capable of periodically reminding a user to do cervical vertebra exercise to prevent cervical vertebra stiffness caused by long-time working. Second, the intelligent wearable device is capable of reminding the user of standards of the cervical vertebra exercise, and once the user does the exercise severely or at an excessive speed, the alarm module of the wearable device will remind to prevent the negative effect brought by intense exercise.

Description

Intelligent wearable device for preventing cervical spondylosis and application method thereof

Technical field

The invention relates to a smart wearable device for preventing cervical spondylosis and an application method thereof, and particularly to a method for preventing cervical spondylosis by using a smart wearable device with G-Sensor.

Background technique

Poor sleep position and improper working posture are easy to cause cervical spondylosis. A large number of statistical materials indicate that some workload is not large and the intensity is not high, but it is in a sitting position, especially the low incidence of cervical spondylosis, including housework. , embroidered women workers, office workers, typewriters, assemblers on the instrument assembly line, etc. When they know that they need to prevent cervical spondylosis, they do not know how much exercise the cervical vertebrae needs to prevent cervical disease. How to prevent cervical spondylosis has become modern Key health issues.

For patients with cervical spondylosis, choosing a suitable exercise program for exercise is not only a treatment method, but also an extremely important means to consolidate the curative effect. It is also an indispensable treatment method for self-treatment of cervical spondylosis. Exercise is better than medical treatment to some extent, because the cervical vertebra is the largest part of the entire spine, but there is very little opportunity to move to the maximum in daily life. In the self-treatment of cervical spondylosis, the force of the cervical vertebrae should be soft and slow, and the force should not be too strong. For patients with more severe symptoms, pay great attention to exercise. If you feel unwell after exercise, stop it or consult a doctor. At present, the most widely used is to do the cervical spine exercise for 5 minutes. The method is: sitting on the chair, doing the bow, head, left turn, right turn, forward head, back shrink, make the head clockwise and Anti-clockwise motion, pay attention to gentleness.

technical problem

The above method one is that there is no way to accurately measure the amount of exercise in each step, and that the cervical spondylosis patient knows which step is not done enough, and does not do well; second, for self-therapy, the patient can easily make some changes to the cervical vertebra according to the symptoms, for example, When the back neck is more painful, the patient may push the neck forward and not pay attention to it. This is not only bad for the cure of the symptoms, but also more likely to cause other problems. .

Technical solution

The invention provides an intelligent wearable device for preventing cervical spondylosis and an application method thereof, which can enable a user to learn a movement method for preventing cervical spondylosis under the guidance of a doctor, and use the result of the learning method to consolidate in subsequent self-therapy. Exercise to achieve targeted and preventive effects without side effects.

The technical solution of the present invention is as follows:

A smart wearable device for preventing cervical spondylosis, the wearable device comprising an MCU, a G-Sensor, a storage module, a comparison module and an alarm module;

The wearable device can be worn on a user's head or neck;

The storage module stores parameters of a standard action, which is a motion action of the user under the guidance of a doctor to prevent cervical spondylosis, and the G-Sensor of the wearable device describes the motion action to form a standard action. parameter;

The storage module further stores a tolerance error, the tolerance error is an editable tolerance error, and the MCU may calculate the tolerance error of the standard action parameter to obtain a comparison parameter of the standard action. The comparison parameter is stored in the storage module;

The comparison module may compare the data of the real-time cervical motion obtained by the G-Sensor measurement with the comparison parameter, and if the data exceeds the comparison parameter, the MCU controls the alarm module to issue The alarm signal indicates that the user's action is not up to standard.

A method for preventing cervical spondylosis by using a smart wearable device, the wearable device comprising an MCU, a G-Sensor, a storage module, a comparison module, and an alarm module, wherein the method comprises:

Step one, wearing the wearable device on a patient's head or neck;

Step 2: According to the severity of the lesion, the patient performs an action to prevent cervical spondylosis under the guidance of a doctor. The G-Sensor of the wearable device describes the movement action, and records the movement action as a standard movement and passes the The MCU records the parameters of the standard action in the storage module;

Step 3: limiting the tolerance error of the standard action, and obtaining a comparison parameter of the standard action and storing it in the storage module;

Step 4: The patient performs cervical vertebra motion, the G-Sensor measures parameters of the cervical vertebra motion, and transmits the parameters to the comparison module, and the comparison module extracts comparison parameters of the standard motions in the storage module, and It is compared with the parameters of the cervical vertebra movement;

Step 5: When the parameter of the cervical vertebra motion exceeds the comparison parameter, the MCU controls the alarm module to issue an alarm signal to prompt the user that the motion is not up to standard.

Further, the motion action is determined by the doctor according to the condition of the patient and the magnitude and speed of the motion action.

Further, the motion action may be one or more of a head down, a head up, a left turn head, a right turn head, a front head, a back head, a clockwise movement of the head, and a counterclockwise motion of the head. .

The wearable device can be a hair clip, glasses or a headband.

Further, before the step 4, the set motion reminding mode of the wearable device is: collecting the sitting parameter of the patient sitting by the G-Sensor, setting a sitting motion error, and obtaining a sitting posture Comparing parameters; the G-Sensor collects data within each time threshold and transmits it to the comparison module, the comparison module compares the data with the meditation comparison parameter, if the data is always in the meditation Within the comparison parameter, the MCU controls the alarm module to send a motion reminding signal, and the patient receives the motion reminding signal and proceeds to step four above.

Beneficial effect

Through the above technical solutions, one can regularly remind the movement to perform cervical vertebra movement to prevent cervical stiffness caused by long-term office work, and secondly, it can remind the standard of the user's cervical vertebra movement, and wearable once the user moves or the speed is too fast. The alarm module of the device is reminded to prevent the negative effects caused by strenuous exercise.

DRAWINGS

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing the data of the quiescent G-Sensor acquisition of the present invention.

2 is a graph of data collected by a user (patient) cervical vertebra motion G-Sensor of the present invention.

Figure 3 is a representation of the hairpin presentation of the wearable device of the present invention.

4 is a representation of the headband of the wearable device of the present invention.

Figure 5 is a representation of the glasses of the wearable device of the present invention.

Embodiments of the invention

Example embodiments will now be described more fully with reference to the accompanying drawings. However, the example embodiments can be embodied in a variety of forms and should not be construed as being limited to the examples set forth herein; rather, these embodiments are provided to make the invention more comprehensive and complete, and the embodiments of the example embodiments are fully conveyed. To those skilled in the art. The drawings are only schematic representations of the invention and are not necessarily to scale. The same reference numerals in the drawings denote the same or similar parts, and the repeated description thereof will be omitted.

Furthermore, the described features, structures, or characteristics may be combined in any suitable manner in one or more embodiments. In the following description, numerous specific details are set forth However, one skilled in the art will appreciate that the technical solution of the present invention may be practiced, and one or more of the specific details may be omitted, or other methods, components, devices, steps, etc. may be employed. In other instances, well-known structures, methods, apparatus, implementations, or operations are not shown or described in detail to avoid obscuring aspects of the invention.

As shown in Figure 1, the sensor measures the measured amplitude map when the G-Sensor is substantially stationary. It can be seen that the amplitude of the sensor is small when stationary (or the user is sitting still).

As shown in FIG. 2, the user (patient) under the guidance, performs an action to prevent cervical spondylosis, which is determined by the doctor according to the condition of the patient, and may include a head, a head, a left turn, Right-handed, forward-extended, retracted, one-to-one movement of the head and one or more of the counter-clockwise movements of the head. The G-Sensor records the above-mentioned motion made by the user, and the record forms a motion trajectory parameter of the standard action, and the MCU records the motion trajectory parameter of the standard action in the storage module.

However, there are often differences between the user's movements and the doctor's instructions. Although there are differences, it is also effective for treating or preventing cervical spondylosis. Therefore, the user's movements can be allowed to have an error, which can also be under the guidance of a doctor. The tolerance of the standard action is limited. After the limitation, the amplitude and speed of the movement of the user during cervical motion can be obtained. After the standard action plus the tolerance error, the comparison parameters of the standard action can be obtained and stored in the storage module. in.

The user then performs cervical motion (the manner in which the wearable device can be worn can be as shown in Figures 3-5), and the manner in which the wearable device can be worn can vary from person to person. When the cervical vertebra is in motion, the G-Sensor measures the parameters of the cervical vertebra motion and transmits it to the comparison module, and the comparison module extracts the comparison parameters of the standard motions in the storage module, and combines them with The parameters of the cervical vertebra motion are compared; when the parameter of the cervical vertebra motion exceeds the comparison parameter, the MCU controls the alarm module to issue an alarm signal to prompt the user that the motion is not up to standard. If the alarm module does not issue an alarm signal or gives a signal indicating that the movement is acceptable, such as the action standard, the user can continue the cervical vertebra motion without having to correct it.

In addition, the set motion reminding mode of the wearable device is: collecting the sitting parameter of the patient sitting by the G-Sensor, setting a sitting motion error, and obtaining a sitting sitting comparison parameter; the G-Sensor Collecting data within each time threshold and transmitting it to the comparison module, the comparison module comparing the data with the sit-down comparison parameter, if the data is always within the sit-down comparison parameter, the MCU The alarm module is controlled to send a motion reminding signal, and the patient receives the motion reminding signal to perform cervical motion.

Through the above technical solution, one can periodically remind the movement to perform cervical vertebra movement, prevent the long-term office from causing cervical stiffness, and secondly, it can remind the standard of the user's cervical vertebra movement, and wearable once the user moves or the speed is too fast. The alarm module of the device is reminded to prevent the negative effects caused by strenuous exercise.

Finally, it should be noted that the above embodiments are merely illustrative of the technical solutions of the present invention, and are not intended to be limiting; although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art will understand that The technical solutions described in the foregoing embodiments may be modified, or some or all of the technical features may be equivalently replaced; and the modifications or substitutions do not deviate from the technical solutions of the embodiments of the present invention. range.

Claims

A smart wearable device for preventing cervical spondylosis, the wearable device comprising an MCU, a G-Sensor, a storage module, a comparison module and an alarm module;

The wearable device can be worn on a user's head or neck;

The storage module stores parameters of a standard action, which is a motion action of the user under the guidance of a doctor to prevent cervical spondylosis, and the G-Sensor of the wearable device describes the motion action to form a standard action. parameter;

The storage module further stores a tolerance error, the tolerance error is an editable tolerance error, and the MCU may calculate the tolerance error of the standard action parameter to obtain a comparison parameter of the standard action. The comparison parameter is stored in the storage module;

The comparison module may compare the data of the real-time cervical motion obtained by the G-Sensor measurement with the comparison parameter, and if the data exceeds the comparison parameter, the MCU controls the alarm module to issue The alarm signal indicates that the user's action is not up to standard.
A method for preventing cervical spondylosis by using a smart wearable device, the wearable device comprising an MCU, a G-Sensor, a storage module, a comparison module, and an alarm module, wherein the method comprises:

Step one, wearing the wearable device on a patient's head or neck;

Step 2: According to the severity of the lesion, the patient performs an action to prevent cervical spondylosis under the guidance of a doctor. The G-Sensor of the wearable device describes the movement action, and records the movement action as a standard movement and passes the The MCU records the parameters of the standard action in the storage module;

Step 3: limiting the tolerance error of the standard action, and obtaining a comparison parameter of the standard action and storing it in the storage module;

Step 4: The patient performs cervical vertebra motion, the G-Sensor measures parameters of the cervical vertebra motion, and transmits the parameters to the comparison module, and the comparison module extracts comparison parameters of the standard motions in the storage module, and It is compared with the parameters of the cervical vertebra movement;

Step 5: When the parameter of the cervical vertebra motion exceeds the comparison parameter, the MCU controls the alarm module to issue an alarm signal to prompt the user that the motion is not up to standard.
A method for preventing cervical spondylosis using a smart wearable device according to claim 2, wherein the movement action is determined by the doctor according to the condition of the patient and the magnitude and speed of the motion action.
The method for preventing cervical spondylosis by using a smart wearable device according to claim 2, wherein the moving action can be a bow, a head, a left turn head, a right turn head, a front head, a back head, Let the head move clockwise and let the head do one or more of the counterclockwise motion.
A method of preventing cervical spondylosis using a smart wearable device according to claim 2, wherein the wearable device is a hair clip, glasses or a headband.
The method for preventing cervical spondylosis by using a smart wearable device according to claim 2, wherein before the step four, the set motion reminding mode of the wearable device is: Using the G-Sensor to collect the sitting quiescent parameter of the patient, setting the sitting error, and obtaining the meditation comparison parameter; the G-Sensor collecting the data within each time threshold and transmitting it to the comparison module, the comparison The module compares the data with the quiescent comparison parameter. If the data is always within the squat comparison parameter, the MCU controls the alarm module to send a motion reminding signal, and the patient receives the motion reminding signal to enter the above Step four.